Datasets:

microsoft
/

FStarDataSet-V2

Dataset card Data Studio Files Files and versions Community

Split (3)

train · 30.9k rows

file_name stringlengths 5 52	name stringlengths 4 95	original_source_type stringlengths 0 23k	source_type stringlengths 9 23k	source_definition stringlengths 9 57.9k	source dict	source_range dict	file_context stringlengths 0 721k	dependencies dict	opens_and_abbrevs listlengths 2 94	vconfig dict	interleaved bool 1 class	verbose_type stringlengths 1 7.42k	effect stringclasses 118 values	effect_flags sequencelengths 0 2	mutual_with sequencelengths 0 11	ideal_premises sequencelengths 0 236	proof_features sequencelengths 0 1	is_simple_lemma bool 2 classes	is_div bool 2 classes	is_proof bool 2 classes	is_simply_typed bool 2 classes	is_type bool 2 classes	partial_definition stringlengths 5 3.99k	completed_definiton stringlengths 1 1.63M	isa_cross_project_example bool 1 class
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vsl	val va_code_Vsl : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vsl : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 29, "end_line": 307, "start_col": 0, "start_line": 306 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vsl", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vsl dst src1 src2 =	(Ins (S.Vsl dst src1 src2))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vcmpequw	val va_code_Vcmpequw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vcmpequw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 34, "end_line": 336, "start_col": 0, "start_line": 335 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vcmpequw", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vcmpequw dst src1 src2 =	(Ins (S.Vcmpequw dst src1 src2))	false
FStar.Math.Fermat.fst	FStar.Math.Fermat.freshman	val freshman (p:int{is_prime p}) (a b:int) : Lemma (pow (a + b) p % p = (pow a p + pow b p) % p)	val freshman (p:int{is_prime p}) (a b:int) : Lemma (pow (a + b) p % p = (pow a p + pow b p) % p)	let freshman p a b = let f (i:nat{0 <= i /\ i <= p}) = binomial p i * pow a (p - i) * pow b i % p in Classical.forall_intro (freshman_aux p a b); calc (==) { pow (a + b) p % p; == { binomial_theorem a b p } sum 0 p (fun i -> binomial p i * pow a (p - i) * pow b i) % p; == { sum_mod 0 p (fun i -> binomial p i * pow a (p - i) * pow b i) p } sum 0 p f % p; == { sum_first 0 p f; sum_last 1 p f } (f 0 + sum 1 (p - 1) f + f p) % p; == { sum_extensionality 1 (p - 1) f (fun _ -> 0) } (f 0 + sum 1 (p - 1) (fun _ -> 0) + f p) % p; == { sum_const 1 (p - 1) 0 } (f 0 + f p) % p; == { } ((binomial p 0 * pow a p * pow b 0) % p + (binomial p p * pow a 0 * pow b p) % p) % p; == { binomial_0 p; binomial_n p; small_mod 1 p } (pow a p % p + pow b p % p) % p; == { lemma_mod_plus_distr_l (pow a p) (pow b p % p) p; lemma_mod_plus_distr_r (pow a p) (pow b p) p } (pow a p + pow b p) % p; }	{ "file_name": "ulib/FStar.Math.Fermat.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 3, "end_line": 433, "start_col": 0, "start_line": 410 }	module FStar.Math.Fermat open FStar.Mul open FStar.Math.Lemmas open FStar.Math.Euclid #set-options "--fuel 1 --ifuel 0 --z3rlimit 20" /// /// Pow /// val pow_zero (k:pos) : Lemma (ensures pow 0 k == 0) (decreases k) let rec pow_zero k = match k with \| 1 -> () \| _ -> pow_zero (k - 1) val pow_one (k:nat) : Lemma (pow 1 k == 1) let rec pow_one = function \| 0 -> () \| k -> pow_one (k - 1) val pow_plus (a:int) (k m:nat): Lemma (pow a (k + m) == pow a k * pow a m) let rec pow_plus a k m = match k with \| 0 -> () \| _ -> calc (==) { pow a (k + m); == { } a * pow a ((k + m) - 1); == { pow_plus a (k - 1) m } a * (pow a (k - 1) * pow a m); == { } pow a k * pow a m; } val pow_mod (p:pos) (a:int) (k:nat) : Lemma (pow a k % p == pow (a % p) k % p) let rec pow_mod p a k = if k = 0 then () else calc (==) { pow a k % p; == { } a * pow a (k - 1) % p; == { lemma_mod_mul_distr_r a (pow a (k - 1)) p } (a * (pow a (k - 1) % p)) % p; == { pow_mod p a (k - 1) } (a * (pow (a % p) (k - 1) % p)) % p; == { lemma_mod_mul_distr_r a (pow (a % p) (k - 1)) p } a * pow (a % p) (k - 1) % p; == { lemma_mod_mul_distr_l a (pow (a % p) (k - 1)) p } (a % p * pow (a % p) (k - 1)) % p; == { } pow (a % p) k % p; } /// /// Binomial theorem /// val binomial (n k:nat) : nat let rec binomial n k = match n, k with \| _, 0 -> 1 \| 0, _ -> 0 \| _, _ -> binomial (n - 1) k + binomial (n - 1) (k - 1) val binomial_0 (n:nat) : Lemma (binomial n 0 == 1) let binomial_0 n = () val binomial_lt (n:nat) (k:nat{n < k}) : Lemma (binomial n k = 0) let rec binomial_lt n k = match n, k with \| _, 0 -> () \| 0, _ -> () \| _ -> binomial_lt (n - 1) k; binomial_lt (n - 1) (k - 1) val binomial_n (n:nat) : Lemma (binomial n n == 1) let rec binomial_n n = match n with \| 0 -> () \| _ -> binomial_lt n (n + 1); binomial_n (n - 1) val pascal (n:nat) (k:pos{k <= n}) : Lemma (binomial n k + binomial n (k - 1) = binomial (n + 1) k) let pascal n k = () val factorial: nat -> pos let rec factorial = function \| 0 -> 1 \| n -> n * factorial (n - 1) let ( ! ) n = factorial n val binomial_factorial (m n:nat) : Lemma (binomial (n + m) n * (!n * !m) == !(n + m)) let rec binomial_factorial m n = match m, n with \| 0, _ -> binomial_n n \| _, 0 -> () \| _ -> let open FStar.Math.Lemmas in let reorder1 (a b c d:int) : Lemma (a * (b * (c * d)) == c * (a * (b * d))) = assert (a * (b * (c * d)) == c * (a * (b * d))) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in let reorder2 (a b c d:int) : Lemma (a * ((b * c) * d) == b * (a * (c * d))) = assert (a * ((b * c) * d) == b * (a * (c * d))) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in calc (==) { binomial (n + m) n * (!n * !m); == { pascal (n + m - 1) n } (binomial (n + m - 1) n + binomial (n + m - 1) (n - 1)) * (!n * !m); == { addition_is_associative n m (-1) } (binomial (n + (m - 1)) n + binomial (n + (m - 1)) (n - 1)) * (!n * !m); == { distributivity_add_left (binomial (n + (m - 1)) n) (binomial (n + (m - 1)) (n - 1)) (!n * !m) } binomial (n + (m - 1)) n * (!n * !m) + binomial (n + (m - 1)) (n - 1) * (!n * !m); == { } binomial (n + (m - 1)) n * (!n * (m * !(m - 1))) + binomial ((n - 1) + m) (n - 1) * ((n * !(n - 1)) * !m); == { reorder1 (binomial (n + (m - 1)) n) (!n) m (!(m - 1)); reorder2 (binomial ((n - 1) + m) (n - 1)) n (!(n - 1)) (!m) } m * (binomial (n + (m - 1)) n * (!n * !(m - 1))) + n * (binomial ((n - 1) + m) (n - 1) * (!(n - 1) * !m)); == { binomial_factorial (m - 1) n; binomial_factorial m (n - 1) } m * !(n + (m - 1)) + n * !((n - 1) + m); == { } m * !(n + m - 1) + n * !(n + m - 1); == { } n * !(n + m - 1) + m * !(n + m - 1); == { distributivity_add_left m n (!(n + m - 1)) } (n + m) * !(n + m - 1); == { } !(n + m); } val sum: a:nat -> b:nat{a <= b} -> f:((i:nat{a <= i /\ i <= b}) -> int) -> Tot int (decreases (b - a)) let rec sum a b f = if a = b then f a else f a + sum (a + 1) b f val sum_extensionality (a:nat) (b:nat{a <= b}) (f g:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (requires forall (i:nat{a <= i /\ i <= b}). f i == g i) (ensures sum a b f == sum a b g) (decreases (b - a)) let rec sum_extensionality a b f g = if a = b then () else sum_extensionality (a + 1) b f g val sum_first (a:nat) (b:nat{a < b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (sum a b f == f a + sum (a + 1) b f) let sum_first a b f = () val sum_last (a:nat) (b:nat{a < b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f == sum a (b - 1) f + f b) (decreases (b - a)) let rec sum_last a b f = if a + 1 = b then sum_first a b f else sum_last (a + 1) b f val sum_const (a:nat) (b:nat{a <= b}) (k:int) : Lemma (ensures sum a b (fun i -> k) == k * (b - a + 1)) (decreases (b - a)) let rec sum_const a b k = if a = b then () else begin sum_const (a + 1) b k; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> k) (fun (i:nat{a + 1 <= i /\ i <= b}) -> k) end val sum_scale (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) (k:int) : Lemma (ensures k * sum a b f == sum a b (fun i -> k * f i)) (decreases (b - a)) let rec sum_scale a b f k = if a = b then () else begin sum_scale (a + 1) b f k; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> k * f i) (fun (i:nat{a + 1 <= i /\ i <= b}) -> k * f i) end val sum_add (a:nat) (b:nat{a <= b}) (f g:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f + sum a b g == sum a b (fun i -> f i + g i)) (decreases (b - a)) let rec sum_add a b f g = if a = b then () else begin sum_add (a + 1) b f g; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> f i + g i) (fun (i:nat{a + 1 <= i /\ i <= b}) -> f i + g i) end val sum_shift (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f == sum (a + 1) (b + 1) (fun (i:nat{a + 1 <= i /\ i <= b + 1}) -> f (i - 1))) (decreases (b - a)) let rec sum_shift a b f = if a = b then () else begin sum_shift (a + 1) b f; sum_extensionality (a + 2) (b + 1) (fun (i:nat{a + 1 <= i /\ i <= b + 1}) -> f (i - 1)) (fun (i:nat{a + 1 + 1 <= i /\ i <= b + 1}) -> f (i - 1)) end val sum_mod (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) (n:pos) : Lemma (ensures sum a b f % n == sum a b (fun i -> f i % n) % n) (decreases (b - a)) let rec sum_mod a b f n = if a = b then () else let g = fun (i:nat{a <= i /\ i <= b}) -> f i % n in let f' = fun (i:nat{a + 1 <= i /\ i <= b}) -> f i % n in calc (==) { sum a b f % n; == { sum_first a b f } (f a + sum (a + 1) b f) % n; == { lemma_mod_plus_distr_r (f a) (sum (a + 1) b f) n } (f a + (sum (a + 1) b f) % n) % n; == { sum_mod (a + 1) b f n; sum_extensionality (a + 1) b f' g } (f a + sum (a + 1) b g % n) % n; == { lemma_mod_plus_distr_r (f a) (sum (a + 1) b g) n } (f a + sum (a + 1) b g) % n; == { lemma_mod_plus_distr_l (f a) (sum (a + 1) b g) n } (f a % n + sum (a + 1) b g) % n; == { } sum a b g % n; } val binomial_theorem_aux (a b:int) (n:nat) (i:nat{1 <= i /\ i <= n - 1}) : Lemma (a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)) == binomial n i * pow a (n - i) * pow b i) let binomial_theorem_aux a b n i = let open FStar.Math.Lemmas in calc (==) { a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)); == { } a * (binomial (n - 1) i * pow a ((n - i) - 1) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - i) * pow b (i - 1)); == { _ by (FStar.Tactics.CanonCommSemiring.int_semiring()) } binomial (n - 1) i * ((a * pow a ((n - i) - 1)) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * (b * pow b (i - 1))); == { assert (a * pow a ((n - i) - 1) == pow a (n - i)); assert (b * pow b (i - 1) == pow b i) } binomial (n - 1) i * (pow a (n - i) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * pow b i); == { _ by (FStar.Tactics.CanonCommSemiring.int_semiring()) } (binomial (n - 1) i + binomial (n - 1) (i - 1)) * (pow a (n - i) * pow b i); == { pascal (n - 1) i } binomial n i * (pow a (n - i) * pow b i); == { paren_mul_right (binomial n i) (pow a (n - i)) (pow b i) } binomial n i * pow a (n - i) * pow b i; } #push-options "--fuel 2" val binomial_theorem (a b:int) (n:nat) : Lemma (pow (a + b) n == sum 0 n (fun i -> binomial n i * pow a (n - i) * pow b i)) let rec binomial_theorem a b n = if n = 0 then () else if n = 1 then (binomial_n 1; binomial_0 1) else let reorder (a b c d:int) : Lemma (a + b + (c + d) == a + d + (b + c)) = assert (a + b + (c + d) == a + d + (b + c)) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in calc (==) { pow (a + b) n; == { } (a + b) * pow (a + b) (n - 1); == { distributivity_add_left a b (pow (a + b) (n - 1)) } a * pow (a + b) (n - 1) + b * pow (a + b) (n - 1); == { binomial_theorem a b (n - 1) } a * sum 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * sum 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i); == { sum_scale 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i) a; sum_scale 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i) b } sum 0 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + sum 0 (n - 1) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); == { sum_first 0 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_last 0 (n - 1) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_extensionality 1 (n - 1) (fun (i:nat{1 <= i /\ i <= n - 1}) -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (fun (i:nat{0 <= i /\ i <= n - 1}) -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_extensionality 0 (n - 2) (fun (i:nat{0 <= i /\ i <= n - 2}) -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (fun (i:nat{0 <= i /\ i <= n - 1}) -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i))} (a * (binomial (n - 0) 0 * pow a (n - 1 - 0) * pow b 0)) + sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + (sum 0 (n - 2) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + b * (binomial (n - 1) (n - 1) * pow a (n - 1 - (n - 1)) * pow b (n - 1))); == { binomial_0 n; binomial_n (n - 1) } pow a n + sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + (sum 0 (n - 2) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + pow b n); == { sum_shift 0 (n - 2) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_extensionality 1 (n - 1) (fun (i:nat{1 <= i /\ i <= n - 1}) -> (fun (i:nat{0 <= i /\ i <= n - 2}) -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (i - 1)) (fun (i:nat{1 <= i /\ i <= n - 2 + 1}) -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) } pow a n + sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + (sum 1 (n - 1) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) + pow b n); == { reorder (pow a n) (sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i))) (sum 1 (n - 2 + 1) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)))) (pow b n) } a * pow a (n - 1) + b * pow b (n - 1) + (sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + sum 1 (n - 1) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)))); == { sum_add 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) } pow a n + pow b n + (sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)))); == { Classical.forall_intro (binomial_theorem_aux a b n); sum_extensionality 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) (fun i -> binomial n i * pow a (n - i) * pow b i) } pow a n + pow b n + sum 1 (n - 1) (fun i -> binomial n i * pow a (n - i) * pow b i); == { } pow a n + (sum 1 (n - 1) (fun i -> binomial n i * pow a (n - i) * pow b i) + pow b n); == { binomial_0 n; binomial_n n } binomial n 0 * pow a (n - 0) * pow b 0 + (sum 1 (n - 1) (fun i -> binomial n i * pow a (n - i) * pow b i) + binomial n n * pow a (n - n) * pow b n); == { sum_first 0 n (fun i -> binomial n i * pow a (n - i) * pow b i); sum_last 1 n (fun i -> binomial n i * pow a (n - i) * pow b i); sum_extensionality 1 n (fun (i:nat{0 <= i /\ i <= n}) -> binomial n i * pow a (n - i) * pow b i) (fun (i:nat{1 <= i /\ i <= n}) -> binomial n i * pow a (n - i) * pow b i); sum_extensionality 1 (n - 1) (fun (i:nat{1 <= i /\ i <= n}) -> binomial n i * pow a (n - i) * pow b i) (fun (i:nat{1 <= i /\ i <= n - 1}) -> binomial n i * pow a (n - i) * pow b i) } sum 0 n (fun i -> binomial n i * pow a (n - i) * pow b i); } #pop-options val factorial_mod_prime (p:int{is_prime p}) (k:pos{k < p}) : Lemma (requires !k % p = 0) (ensures False) (decreases k) let rec factorial_mod_prime p k = if k = 0 then () else begin euclid_prime p k !(k - 1); factorial_mod_prime p (k - 1) end val binomial_prime (p:int{is_prime p}) (k:pos{k < p}) : Lemma (binomial p k % p == 0) let binomial_prime p k = calc (==) { (p * !(p -1)) % p; == { FStar.Math.Lemmas.lemma_mod_mul_distr_l p (!(p - 1)) p } (p % p * !(p - 1)) % p; == { } (0 * !(p - 1)) % p; == { } 0; }; binomial_factorial (p - k) k; assert (binomial p k * (!k * !(p - k)) == p * !(p - 1)); euclid_prime p (binomial p k) (!k * !(p - k)); if (binomial p k % p <> 0) then begin euclid_prime p !k !(p - k); assert (!k % p = 0 \/ !(p - k) % p = 0); if !k % p = 0 then factorial_mod_prime p k else factorial_mod_prime p (p - k) end val freshman_aux (p:int{is_prime p}) (a b:int) (i:pos{i < p}): Lemma ((binomial p i * pow a (p - i) * pow b i) % p == 0) let freshman_aux p a b i = calc (==) { (binomial p i * pow a (p - i) * pow b i) % p; == { paren_mul_right (binomial p i) (pow a (p - i)) (pow b i) } (binomial p i * (pow a (p - i) * pow b i)) % p; == { lemma_mod_mul_distr_l (binomial p i) (pow a (p - i) * pow b i) p } (binomial p i % p * (pow a (p - i) * pow b i)) % p; == { binomial_prime p i } 0; } val freshman (p:int{is_prime p}) (a b:int) : Lemma	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Tactics.Effect.fsti.checked", "FStar.Tactics.CanonCommSemiring.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.Math.Euclid.fsti.checked", "FStar.Classical.fsti.checked", "FStar.Calc.fsti.checked" ], "interface_file": true, "source_file": "FStar.Math.Fermat.fst" }	[ { "abbrev": false, "full_module": "FStar.Math.Euclid", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math.Euclid", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 1, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": 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": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	p: Prims.int{FStar.Math.Euclid.is_prime p} -> a: Prims.int -> b: Prims.int -> FStar.Pervasives.Lemma (ensures FStar.Math.Fermat.pow (a + b) p % p = (FStar.Math.Fermat.pow a p + FStar.Math.Fermat.pow b p) % p)	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "FStar.Math.Euclid.is_prime", "FStar.Calc.calc_finish", "Prims.eq2", "Prims.op_Modulus", "FStar.Math.Fermat.pow", "Prims.op_Addition", "Prims.Cons", "FStar.Preorder.relation", "Prims.Nil", "Prims.unit", "FStar.Calc.calc_step", "FStar.Mul.op_Star", "FStar.Math.Fermat.binomial", "FStar.Math.Fermat.sum", "Prims.op_Subtraction", "Prims.nat", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.Calc.calc_init", "FStar.Calc.calc_pack", "FStar.Math.Fermat.binomial_theorem", "Prims.squash", "FStar.Math.Fermat.sum_mod", "FStar.Math.Fermat.sum_last", "FStar.Math.Fermat.sum_first", "FStar.Math.Fermat.sum_extensionality", "FStar.Math.Fermat.sum_const", "FStar.Math.Lemmas.small_mod", "FStar.Math.Fermat.binomial_n", "FStar.Math.Fermat.binomial_0", "FStar.Math.Lemmas.lemma_mod_plus_distr_r", "FStar.Math.Lemmas.lemma_mod_plus_distr_l", "FStar.Classical.forall_intro", "Prims.pos", "Prims.op_LessThan", "FStar.Math.Fermat.freshman_aux" ]	[]	false	false	true	false	false	let freshman p a b =	let f (i: nat{0 <= i /\ i <= p}) = (binomial p i * pow a (p - i)) * pow b i % p in Classical.forall_intro (freshman_aux p a b); calc ( == ) { pow (a + b) p % p; ( == ) { binomial_theorem a b p } sum 0 p (fun i -> (binomial p i * pow a (p - i)) * pow b i) % p; ( == ) { sum_mod 0 p (fun i -> (binomial p i * pow a (p - i)) * pow b i) p } sum 0 p f % p; ( == ) { (sum_first 0 p f; sum_last 1 p f) } (f 0 + sum 1 (p - 1) f + f p) % p; ( == ) { sum_extensionality 1 (p - 1) f (fun _ -> 0) } (f 0 + sum 1 (p - 1) (fun _ -> 0) + f p) % p; ( == ) { sum_const 1 (p - 1) 0 } (f 0 + f p) % p; ( == ) { () } (((binomial p 0 * pow a p) * pow b 0) % p + ((binomial p p * pow a 0) * pow b p) % p) % p; ( == ) { (binomial_0 p; binomial_n p; small_mod 1 p) } (pow a p % p + pow b p % p) % p; ( == ) { (lemma_mod_plus_distr_l (pow a p) (pow b p % p) p; lemma_mod_plus_distr_r (pow a p) (pow b p) p) } (pow a p + pow b p) % p; }	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vsldoi	val va_code_Vsldoi : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> Tot va_code	val va_code_Vsldoi : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> Tot va_code	let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 38, "end_line": 365, "start_col": 0, "start_line": 364 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> count: Vale.PPC64LE.Machine_s.quad32bytes -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.quad32bytes", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vsldoi", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vsldoi dst src1 src2 count =	(Ins (S.Vsldoi dst src1 src2 count))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Mfvsrd	val va_wpProof_Mfvsrd : dst:va_operand_reg_opr -> src:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Mfvsrd dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mfvsrd dst src) ([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Mfvsrd : dst:va_operand_reg_opr -> src:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Mfvsrd dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mfvsrd dst src) ([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 67, "start_col": 0, "start_line": 61 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_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.InsVector.va_lemma_Mfvsrd", "Vale.PPC64LE.InsVector.va_code_Mfvsrd" ]	[]	false	false	false	false	false	let va_wpProof_Mfvsrd dst src va_s0 va_k =	let va_sM, va_f0 = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Mtvsrdd	val va_wpProof_Mtvsrdd : dst:va_operand_vec_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_Mtvsrdd dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mtvsrdd dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Mtvsrdd : dst:va_operand_vec_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_Mtvsrdd dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mtvsrdd dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 126, "start_col": 0, "start_line": 120 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_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)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "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_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Mtvsrdd", "Vale.PPC64LE.InsVector.va_code_Mtvsrdd" ]	[]	false	false	false	false	false	let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vcmpequw	val va_codegen_success_Vcmpequw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vcmpequw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 340, "start_col": 0, "start_line": 339 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vcmpequw dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vmr	val va_lemma_Vmr : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vmr dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == va_eval_vec_opr va_sM src /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vmr : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vmr dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == va_eval_vec_opr va_sM src /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 27, "start_col": 0, "start_line": 22 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vmr", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vmr" ]	[]	false	false	false	false	false	let va_lemma_Vmr va_b0 va_s0 dst src =	va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vsldoi	val va_codegen_success_Vsldoi : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> Tot va_pbool	val va_codegen_success_Vsldoi : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> Tot va_pbool	let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 369, "start_col": 0, "start_line": 368 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> count: Vale.PPC64LE.Machine_s.quad32bytes -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.quad32bytes", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vsldoi dst src1 src2 count =	(va_ttrue ())	false
CQueue.fst	CQueue.intro_llist_fragment_head_cons	val intro_llist_fragment_head_cons (#opened: _) (#a: Type) (phead: ref (ccell_ptrvalue a)) (head: ccell_lvalue a) (next: (ccell_ptrvalue a)) (tl: Ghost.erased (list a)) : SteelGhost (Ghost.erased (list a)) opened (ccell head `star` llist_fragment_head tl (ccell_next head) next) (fun res -> llist_fragment_head res phead head) (fun h -> (h (ccell head)).vcell_next == next) (fun h res h' -> Ghost.reveal res == (h (ccell head)).vcell_data :: Ghost.reveal tl /\ h' (llist_fragment_head res phead head) == h (llist_fragment_head tl (ccell_next head) next) )	val intro_llist_fragment_head_cons (#opened: _) (#a: Type) (phead: ref (ccell_ptrvalue a)) (head: ccell_lvalue a) (next: (ccell_ptrvalue a)) (tl: Ghost.erased (list a)) : SteelGhost (Ghost.erased (list a)) opened (ccell head `star` llist_fragment_head tl (ccell_next head) next) (fun res -> llist_fragment_head res phead head) (fun h -> (h (ccell head)).vcell_next == next) (fun h res h' -> Ghost.reveal res == (h (ccell head)).vcell_data :: Ghost.reveal tl /\ h' (llist_fragment_head res phead head) == h (llist_fragment_head tl (ccell_next head) next) )	let intro_llist_fragment_head_cons #_ #a phead head next tl = let vc = gget (ccell head) in let l' : (l' : Ghost.erased (list a) { Cons? l' }) = Ghost.hide (vc.vcell_data :: tl) in intro_ccell_is_lvalue head; intro_vrefine (ccell head) (llist_fragment_head_data_refine (L.hd l')); intro_vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd l'))) (llist_fragment_head tl (ccell_next head) next) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l') (llist_fragment_head (L.tl l'))); llist_fragment_head_eq_cons l' phead head; change_equal_slprop (vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd l'))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l') (llist_fragment_head (L.tl l')))) (llist_fragment_head l' phead head); l'	{ "file_name": "share/steel/examples/steel/CQueue.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 4, "end_line": 877, "start_col": 0, "start_line": 858 }	module CQueue open CQueue.LList #set-options "--ide_id_info_off" //Re-define squash, since this module explicitly //replies on proving equalities of the form `t_of v == squash p` //which are delicate in the presence of optimizations that //unfold `Prims.squash (p /\ q)`to _:unit{p /\ q} //See Issue #2496 let squash (p:Type u#a) : Type0 = squash p (* BEGIN library ) let intro_vrewrite_no_norm (#opened:inames) (v: vprop) (#t: Type) (f: (t_of v) -> GTot t) : SteelGhost unit opened v (fun _ -> vrewrite v f) (fun _ -> True) (fun h _ h' -> h' (vrewrite v f) == f (h v)) = intro_vrewrite v f let elim_vrewrite_no_norm (#opened:inames) (v: vprop) (#t: Type) (f: ((t_of v) -> GTot t)) : SteelGhost unit opened (vrewrite v f) (fun _ -> v) (fun _ -> True) (fun h _ h' -> h (vrewrite v f) == f (h' v)) = elim_vrewrite v f let vconst_sel (#a: Type) (x: a) : Tot (selector a (hp_of emp)) = fun _ -> x [@@ __steel_reduce__] let vconst' (#a: Type) (x: a) : GTot vprop' = { hp = hp_of emp; t = a; sel = vconst_sel x; } [@@ __steel_reduce__] let vconst (#a: Type) (x: a) : Tot vprop = VUnit (vconst' x) let intro_vconst (#opened: _) (#a: Type) (x: a) : SteelGhost unit opened emp (fun _ -> vconst x) (fun _ -> True) (fun _ _ h' -> h' (vconst x) == x) = change_slprop_rel emp (vconst x) (fun _ y -> y == x) (fun _ -> ()) let elim_vconst (#opened: _) (#a: Type) (x: a) : SteelGhost unit opened (vconst x) (fun _ -> emp) (fun _ -> True) (fun h _ _ -> h (vconst x) == x) = change_slprop_rel (vconst x) emp (fun y _ -> y == x) (fun _ -> ()) let vpure_sel' (p: prop) : Tot (selector' (squash p) (Steel.Memory.pure p)) = fun (m: Steel.Memory.hmem (Steel.Memory.pure p)) -> pure_interp p m let vpure_sel (p: prop) : Tot (selector (squash p) (Steel.Memory.pure p)) = vpure_sel' p [@@ __steel_reduce__] let vpure' (p: prop) : GTot vprop' = { hp = Steel.Memory.pure p; t = squash p; sel = vpure_sel p; } [@@ __steel_reduce__] let vpure (p: prop) : Tot vprop = VUnit (vpure' p) let intro_vpure (#opened: _) (p: prop) : SteelGhost unit opened emp (fun _ -> vpure p) (fun _ -> p) (fun _ _ h' -> p) = change_slprop_rel emp (vpure p) (fun _ _ -> p) (fun m -> pure_interp p m) let elim_vpure (#opened: _) (p: prop) : SteelGhost unit opened (vpure p) (fun _ -> emp) (fun _ -> True) (fun _ _ _ -> p) = change_slprop_rel (vpure p) emp (fun _ _ -> p) (fun m -> pure_interp p m; reveal_emp (); intro_emp m) val intro_vdep2 (#opened:inames) (v: vprop) (q: vprop) (x: t_of v) (p: (t_of v -> Tot vprop)) : SteelGhost unit opened (v `star` q) (fun _ -> vdep v p) (requires (fun h -> q == p x /\ x == h v )) (ensures (fun h _ h' -> let x2 = h' (vdep v p) in q == p (h v) /\ dfst x2 == (h v) /\ dsnd x2 == (h q) )) let intro_vdep2 v q x p = intro_vdep v q p let vbind0_payload (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) (x: t_of a) : Tot vprop = vpure (t == t_of (b x)) `star` b x let vbind0_rewrite (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) (x: normal (t_of (vdep a (vbind0_payload a t b)))) : Tot t = snd (dsnd x) [@@__steel_reduce__; __reduce__] let vbind0 (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : Tot vprop = a `vdep` vbind0_payload a t b `vrewrite` vbind0_rewrite a t b let vbind_hp // necessary to hide the attribute on hp_of (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : Tot (slprop u#1) = hp_of (vbind0 a t b) let vbind_sel // same for hp_sel (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : GTot (selector t (vbind_hp a t b)) = sel_of (vbind0 a t b) [@@__steel_reduce__] let vbind' (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : GTot vprop' = { hp = vbind_hp a t b; t = t; sel = vbind_sel a t b; } [@@__steel_reduce__] let vbind (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : Tot vprop = VUnit (vbind' a t b) let intro_vbind (#opened: _) (a: vprop) (b' : vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : SteelGhost unit opened (a `star` b') (fun _ -> vbind a t b) (fun h -> t_of b' == t /\ b' == b (h a)) (fun h _ h' -> t_of b' == t /\ b' == b (h a) /\ h' (vbind a t b) == h b' ) = intro_vpure (t == t_of b'); intro_vdep a (vpure (t == t_of b') `star` b') (vbind0_payload a t b); intro_vrewrite (a `vdep` vbind0_payload a t b) (vbind0_rewrite a t b); change_slprop_rel (vbind0 a t b) (vbind a t b) (fun x y -> x == y) (fun _ -> ()) let elim_vbind (#opened: _) (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : SteelGhost (Ghost.erased (t_of a)) opened (vbind a t b) (fun res -> a `star` b (Ghost.reveal res)) (fun h -> True) (fun h res h' -> h' a == Ghost.reveal res /\ t == t_of (b (Ghost.reveal res)) /\ h' (b (Ghost.reveal res)) == h (vbind a t b) ) = change_slprop_rel (vbind a t b) (vbind0 a t b) (fun x y -> x == y) (fun _ -> ()); elim_vrewrite (a `vdep` vbind0_payload a t b) (vbind0_rewrite a t b); let res = elim_vdep a (vbind0_payload a t b) in change_equal_slprop (vbind0_payload a t b (Ghost.reveal res)) (vpure (t == t_of (b (Ghost.reveal res))) `star` b (Ghost.reveal res)); elim_vpure (t == t_of (b (Ghost.reveal res))); res let (==) (#a:_) (x y: a) : prop = x == y let snoc_inj (#a: Type) (hd1 hd2: list a) (tl1 tl2: a) : Lemma (requires (hd1 `L.append` [tl1] == hd2 `L.append` [tl2])) (ensures (hd1 == hd2 /\ tl1 == tl2)) [SMTPat (hd1 `L.append` [tl1]); SMTPat (hd2 `L.append` [tl2])] = L.lemma_snoc_unsnoc (hd1, tl1); L.lemma_snoc_unsnoc (hd2, tl2) [@"opaque_to_smt"] let unsnoc (#a: Type) (l: list a) : Pure (list a & a) (requires (Cons? l)) (ensures (fun (hd, tl) -> l == hd `L.append` [tl] /\ L.length hd < L.length l)) = L.lemma_unsnoc_snoc l; L.append_length (fst (L.unsnoc l)) [snd (L.unsnoc l)]; L.unsnoc l let unsnoc_hd (#a: Type) (l: list a) : Pure (list a) (requires (Cons? l)) (ensures (fun l' -> L.length l' < L.length l)) = fst (unsnoc l) let unsnoc_tl (#a: Type) (l: list a) : Pure (a) (requires (Cons? l)) (ensures (fun _ -> True)) = snd (unsnoc l) [@@"opaque_to_smt"] let snoc (#a: Type) (l: list a) (x: a) : Pure (list a) (requires True) (ensures (fun l' -> Cons? l' /\ unsnoc_hd l' == l /\ unsnoc_tl l' == x )) = let l' = L.snoc (l, x) in L.append_length l [x]; snoc_inj l (unsnoc_hd l') x (unsnoc_tl l'); l' let snoc_unsnoc (#a: Type) (l: list a) : Lemma (requires (Cons? l)) (ensures (snoc (unsnoc_hd l) (unsnoc_tl l) == l)) = () unfold let coerce (#a: Type) (x: a) (b: Type) : Pure b (requires (a == b)) (ensures (fun y -> a == b /\ x == y)) = x ( END library ) let t a = cllist_lvalue a let v (a: Type0) = list a let datas (#a: Type0) (l: v a) : Tot (list a) = l ( view from the tail ) let llist_fragment_tail_cons_data_refine (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (d: a) : Tot prop = d == unsnoc_tl (Ghost.reveal l) [@@ __steel_reduce__] let llist_fragment_tail_cons_lvalue_payload (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (c: ccell_lvalue a) : Tot vprop = vptr (ccell_data c) `vrefine` llist_fragment_tail_cons_data_refine l let ccell_is_lvalue_refine (a: Type) (c: ccell_ptrvalue a) : Tot prop = ccell_ptrvalue_is_null c == false [@@ __steel_reduce__ ] let llist_fragment_tail_cons_next_payload (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (ptail: ref (ccell_ptrvalue a)) : Tot vprop = vptr ptail `vrefine` ccell_is_lvalue_refine a `vdep` llist_fragment_tail_cons_lvalue_payload l [@@ __steel_reduce__ ] let llist_fragment_tail_cons_rewrite (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (llist_fragment_tail: vprop { t_of llist_fragment_tail == ref (ccell_ptrvalue a) }) (x: normal (t_of (llist_fragment_tail `vdep` (llist_fragment_tail_cons_next_payload l)))) : Tot (ref (ccell_ptrvalue a)) = let (\| _, (\| c, _ \|) \|) = x in ccell_next c let rec llist_fragment_tail (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : Pure vprop (requires True) (ensures (fun v -> t_of v == ref (ccell_ptrvalue a))) (decreases (Ghost.reveal (L.length l))) = if Nil? l then vconst phead else llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) let llist_fragment_tail_eq (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : Lemma (llist_fragment_tail l phead == ( if Nil? l then vconst phead else llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) )) = assert_norm (llist_fragment_tail l phead == ( if Nil? l then vconst phead else llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) )) let llist_fragment_tail_eq_cons (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : Lemma (requires (Cons? l)) (ensures (Cons? l /\ llist_fragment_tail l phead == ( llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) ))) = llist_fragment_tail_eq l phead unfold let sel_llist_fragment_tail (#a:Type) (#p:vprop) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (h: rmem p { FStar.Tactics.with_tactic selector_tactic (can_be_split p (llist_fragment_tail l phead) /\ True) }) : GTot (ref (ccell_ptrvalue a)) = coerce (h (llist_fragment_tail l phead)) (ref (ccell_ptrvalue a)) val intro_llist_fragment_tail_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : SteelGhost unit opened emp (fun _ -> llist_fragment_tail l phead) (fun _ -> Nil? l) (fun _ _ h' -> sel_llist_fragment_tail l phead h' == phead) let intro_llist_fragment_tail_nil l phead = intro_vconst phead; change_equal_slprop (vconst phead) (llist_fragment_tail l phead) val elim_llist_fragment_tail_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : SteelGhost unit opened (llist_fragment_tail l phead) (fun _ -> emp) (fun _ -> Nil? l) (fun h _ _ -> sel_llist_fragment_tail l phead h == phead) let elim_llist_fragment_tail_nil l phead = change_equal_slprop (llist_fragment_tail l phead) (vconst phead); elim_vconst phead val intro_llist_fragment_tail_snoc (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (ptail: Ghost.erased (ref (ccell_ptrvalue a))) (tail: Ghost.erased (ccell_lvalue a)) : SteelGhost (Ghost.erased (list a)) opened (llist_fragment_tail l phead `star` vptr ptail `star` vptr (ccell_data tail)) (fun res -> llist_fragment_tail res phead) (fun h -> sel_llist_fragment_tail l phead h == Ghost.reveal ptail /\ sel ptail h == Ghost.reveal tail ) (fun h res h' -> Ghost.reveal res == snoc (Ghost.reveal l) (sel (ccell_data tail) h) /\ sel_llist_fragment_tail res phead h' == ccell_next tail ) #push-options "--z3rlimit 16" let intro_llist_fragment_tail_snoc #_ #a l phead ptail tail = let d = gget (vptr (ccell_data tail)) in let l' : (l' : Ghost.erased (list a) { Cons? (Ghost.reveal l') }) = Ghost.hide (snoc (Ghost.reveal l) (Ghost.reveal d)) in intro_vrefine (vptr (ccell_data tail)) (llist_fragment_tail_cons_data_refine l'); intro_vrefine (vptr ptail) (ccell_is_lvalue_refine a); intro_vdep (vptr ptail `vrefine` ccell_is_lvalue_refine a) (vptr (ccell_data tail) `vrefine` llist_fragment_tail_cons_data_refine l') (llist_fragment_tail_cons_lvalue_payload l'); change_equal_slprop (llist_fragment_tail l phead) (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead); intro_vdep (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead) (vptr ptail `vrefine` ccell_is_lvalue_refine a `vdep` llist_fragment_tail_cons_lvalue_payload l') (llist_fragment_tail_cons_next_payload l'); intro_vrewrite_no_norm (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead `vdep` llist_fragment_tail_cons_next_payload l') (llist_fragment_tail_cons_rewrite l' (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead)); llist_fragment_tail_eq_cons l' phead; change_equal_slprop (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead `vdep` llist_fragment_tail_cons_next_payload l' `vrewrite` llist_fragment_tail_cons_rewrite l' (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead)) (llist_fragment_tail l' phead); let g' = gget (llist_fragment_tail l' phead) in assert (Ghost.reveal g' == ccell_next tail); noop (); l' #pop-options [@@erasable] noeq type ll_unsnoc_t (a: Type) = { ll_unsnoc_l: list a; ll_unsnoc_ptail: ref (ccell_ptrvalue a); ll_unsnoc_tail: ccell_lvalue a; } val elim_llist_fragment_tail_snoc (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : SteelGhost (ll_unsnoc_t a) opened (llist_fragment_tail l phead) (fun res -> llist_fragment_tail res.ll_unsnoc_l phead `star` vptr res.ll_unsnoc_ptail `star` vptr (ccell_data res.ll_unsnoc_tail)) (fun _ -> Cons? l) (fun h res h' -> Cons? l /\ Ghost.reveal res.ll_unsnoc_l == unsnoc_hd l /\ sel res.ll_unsnoc_ptail h' == res.ll_unsnoc_tail /\ sel (ccell_data res.ll_unsnoc_tail) h'== unsnoc_tl l /\ sel_llist_fragment_tail res.ll_unsnoc_l phead h' == res.ll_unsnoc_ptail /\ sel_llist_fragment_tail l phead h == (ccell_next res.ll_unsnoc_tail) ) #push-options "--z3rlimit 32" #restart-solver let elim_llist_fragment_tail_snoc #_ #a l phead = let l0 : (l0: Ghost.erased (list a) { Cons? l0 }) = Ghost.hide (Ghost.reveal l) in llist_fragment_tail_eq_cons l0 phead; change_equal_slprop (llist_fragment_tail l phead) (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead `vdep` llist_fragment_tail_cons_next_payload l0 `vrewrite` llist_fragment_tail_cons_rewrite l0 (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead)); elim_vrewrite_no_norm (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead `vdep` llist_fragment_tail_cons_next_payload l0) (llist_fragment_tail_cons_rewrite l0 (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead)); let ptail = elim_vdep (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead) (llist_fragment_tail_cons_next_payload l0) in let ptail0 : Ghost.erased (ref (ccell_ptrvalue a)) = ptail in change_equal_slprop (llist_fragment_tail_cons_next_payload l0 (Ghost.reveal ptail)) (vptr (Ghost.reveal ptail0) `vrefine` ccell_is_lvalue_refine a `vdep` llist_fragment_tail_cons_lvalue_payload l0); let tail = elim_vdep (vptr (Ghost.reveal ptail0) `vrefine` ccell_is_lvalue_refine a) (llist_fragment_tail_cons_lvalue_payload l0) in elim_vrefine (vptr (Ghost.reveal ptail0)) (ccell_is_lvalue_refine a); let res = { ll_unsnoc_l = unsnoc_hd l0; ll_unsnoc_ptail = Ghost.reveal ptail0; ll_unsnoc_tail = Ghost.reveal tail; } in change_equal_slprop (vptr (Ghost.reveal ptail0)) (vptr res.ll_unsnoc_ptail); change_equal_slprop (llist_fragment_tail_cons_lvalue_payload l0 (Ghost.reveal tail)) (vptr (ccell_data res.ll_unsnoc_tail) `vrefine` llist_fragment_tail_cons_data_refine l0); elim_vrefine (vptr (ccell_data res.ll_unsnoc_tail)) (llist_fragment_tail_cons_data_refine l0); change_equal_slprop (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead) (llist_fragment_tail res.ll_unsnoc_l phead); res #pop-options let rec llist_fragment_tail_append (#opened: _) (#a: Type) (phead0: ref (ccell_ptrvalue a)) (l1: Ghost.erased (list a)) (phead1: Ghost.erased (ref (ccell_ptrvalue a))) (l2: Ghost.erased (list a)) : SteelGhost (Ghost.erased (list a)) opened (llist_fragment_tail l1 phead0 `star` llist_fragment_tail l2 phead1) (fun res -> llist_fragment_tail res phead0) (fun h -> Ghost.reveal phead1 == (sel_llist_fragment_tail l1 phead0) h ) (fun h res h' -> Ghost.reveal res == Ghost.reveal l1 `L.append` Ghost.reveal l2 /\ (sel_llist_fragment_tail res phead0) h' == (sel_llist_fragment_tail l2 phead1) h ) (decreases (L.length (Ghost.reveal l2))) = let g1 = gget (llist_fragment_tail l1 phead0) in assert (Ghost.reveal phead1 == Ghost.reveal g1); if Nil? l2 then begin L.append_l_nil (Ghost.reveal l1); elim_llist_fragment_tail_nil l2 phead1; l1 end else begin let res = elim_llist_fragment_tail_snoc l2 (Ghost.reveal phead1) in let d = gget (vptr (ccell_data res.ll_unsnoc_tail)) in L.append_assoc (Ghost.reveal l1) (Ghost.reveal res.ll_unsnoc_l) [Ghost.reveal d]; let l3 = llist_fragment_tail_append phead0 l1 phead1 res.ll_unsnoc_l in intro_llist_fragment_tail_snoc l3 phead0 res.ll_unsnoc_ptail res.ll_unsnoc_tail end let queue_tail_refine (#a: Type) (tail1: ref (ccell_ptrvalue a)) (tail2: ref (ccell_ptrvalue a)) (tl: normal (t_of (vptr tail2))) : Tot prop = ccell_ptrvalue_is_null tl == true /\ tail1 == tail2 [@@__steel_reduce__] let queue_tail_dep2 (#a: Type) (x: t a) (l: Ghost.erased (list a)) (tail1: t_of (llist_fragment_tail l (cllist_head x))) (tail2: ref (ccell_ptrvalue a)) : Tot vprop = vptr tail2 `vrefine` queue_tail_refine tail1 tail2 [@@__steel_reduce__] let queue_tail_dep1 (#a: Type) (x: t a) (l: Ghost.erased (list a)) (tail1: t_of (llist_fragment_tail l (cllist_head x))) : Tot vprop = vptr (cllist_tail x) `vdep` queue_tail_dep2 x l tail1 [@@__steel_reduce__; __reduce__] let queue_tail (#a: Type) (x: t a) (l: Ghost.erased (list a)) : Tot vprop = llist_fragment_tail l (cllist_head x) `vdep` queue_tail_dep1 x l val intro_queue_tail (#opened: _) (#a: Type) (x: t a) (l: Ghost.erased (list a)) (tail: ref (ccell_ptrvalue a)) : SteelGhost unit opened (llist_fragment_tail l (cllist_head x) `star` vptr (cllist_tail x) `star` vptr tail) (fun _ -> queue_tail x l) (fun h -> sel_llist_fragment_tail l (cllist_head x) h == tail /\ sel (cllist_tail x) h == tail /\ ccell_ptrvalue_is_null (sel tail h) ) (fun _ _ _ -> True) let intro_queue_tail x l tail = intro_vrefine (vptr tail) (queue_tail_refine tail tail); intro_vdep2 (vptr (cllist_tail x)) (vptr tail `vrefine` queue_tail_refine tail tail) tail (queue_tail_dep2 x l tail); intro_vdep2 (llist_fragment_tail l (cllist_head x)) (vptr (cllist_tail x) `vdep` queue_tail_dep2 x l tail) tail (queue_tail_dep1 x l) val elim_queue_tail (#opened: _) (#a: Type) (x: t a) (l: Ghost.erased (list a)) : SteelGhost (Ghost.erased (ref (ccell_ptrvalue a))) opened (queue_tail x l) (fun tail -> llist_fragment_tail l (cllist_head x) `star` vptr (cllist_tail x) `star` vptr tail) (fun h -> True) (fun _ tail h -> sel_llist_fragment_tail l (cllist_head x) h == Ghost.reveal tail /\ sel (cllist_tail x) h == Ghost.reveal tail /\ ccell_ptrvalue_is_null (h (vptr tail)) ) let elim_queue_tail #_ #a x l = let tail0 = elim_vdep (llist_fragment_tail l (cllist_head x)) (queue_tail_dep1 x l) in let tail : Ghost.erased (ref (ccell_ptrvalue a)) = tail0 in change_equal_slprop (queue_tail_dep1 x l (Ghost.reveal tail0)) (vptr (cllist_tail x) `vdep` queue_tail_dep2 x l tail0); let tail2 = elim_vdep (vptr (cllist_tail x)) (queue_tail_dep2 x l tail0) in let tail3 : Ghost.erased (ref (ccell_ptrvalue a)) = tail2 in change_equal_slprop (queue_tail_dep2 x l tail0 (Ghost.reveal tail2)) (vptr tail3 `vrefine` queue_tail_refine tail0 tail3); elim_vrefine (vptr tail3) (queue_tail_refine tail0 tail3); change_equal_slprop (vptr tail3) (vptr tail); tail ( view from the head *) let llist_fragment_head_data_refine (#a: Type) (d: a) (c: vcell a) : Tot prop = c.vcell_data == d let llist_fragment_head_payload (#a: Type) (head: ccell_ptrvalue a) (d: a) (llist_fragment_head: (ref (ccell_ptrvalue a) -> ccell_ptrvalue a -> Tot vprop)) (x: t_of (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine d))) : Tot vprop = llist_fragment_head (ccell_next (fst x)) (snd x).vcell_next let rec llist_fragment_head (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : Tot vprop (decreases (Ghost.reveal l)) = if Nil? l then vconst (phead, head) else vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd (Ghost.reveal l)))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd (Ghost.reveal l)) (llist_fragment_head (L.tl (Ghost.reveal l)))) let t_of_llist_fragment_head (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : Lemma (t_of (llist_fragment_head l phead head) == ref (ccell_ptrvalue a) & ccell_ptrvalue a) = () unfold let sel_llist_fragment_head (#a:Type) (#p:vprop) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) (h: rmem p { FStar.Tactics.with_tactic selector_tactic (can_be_split p (llist_fragment_head l phead head) /\ True) }) : GTot (ref (ccell_ptrvalue a) & ccell_ptrvalue a) = coerce (h (llist_fragment_head l phead head)) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) val intro_llist_fragment_head_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost unit opened emp (fun _ -> llist_fragment_head l phead head) (fun _ -> Nil? l) (fun _ _ h' -> sel_llist_fragment_head l phead head h' == (phead, head)) let intro_llist_fragment_head_nil l phead head = intro_vconst (phead, head); change_equal_slprop (vconst (phead, head)) (llist_fragment_head l phead head) val elim_llist_fragment_head_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost unit opened (llist_fragment_head l phead head) (fun _ -> emp) (fun _ -> Nil? l) (fun h _ _ -> sel_llist_fragment_head l phead head h == (phead, head)) let elim_llist_fragment_head_nil l phead head = change_equal_slprop (llist_fragment_head l phead head) (vconst (phead, head)); elim_vconst (phead, head) let llist_fragment_head_eq_cons (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : Lemma (requires (Cons? (Ghost.reveal l))) (ensures ( llist_fragment_head l phead head == vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd (Ghost.reveal l)))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd (Ghost.reveal l)) (llist_fragment_head (L.tl (Ghost.reveal l)))) )) = assert_norm (llist_fragment_head l phead head == ( if Nil? l then vconst (phead, head) else vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd (Ghost.reveal l)))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd (Ghost.reveal l)) (llist_fragment_head (L.tl (Ghost.reveal l)))) )) val intro_llist_fragment_head_cons (#opened: _) (#a: Type) (phead: ref (ccell_ptrvalue a)) (head: ccell_lvalue a) (next: (ccell_ptrvalue a)) (tl: Ghost.erased (list a)) : SteelGhost (Ghost.erased (list a)) opened (ccell head `star` llist_fragment_head tl (ccell_next head) next) (fun res -> llist_fragment_head res phead head) (fun h -> (h (ccell head)).vcell_next == next) (fun h res h' -> Ghost.reveal res == (h (ccell head)).vcell_data :: Ghost.reveal tl /\ h' (llist_fragment_head res phead head) == h (llist_fragment_head tl (ccell_next head) next) )	{ "checked_file": "/", "dependencies": [ "Steel.Memory.fsti.checked", "prims.fst.checked", "FStar.Tactics.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "CQueue.LList.fsti.checked" ], "interface_file": true, "source_file": "CQueue.fst" }	[ { "abbrev": false, "full_module": "CQueue.LList", "short_module": null }, { "abbrev": true, "full_module": "FStar.List.Tot", "short_module": "L" }, { "abbrev": false, "full_module": "Steel.Reference", "short_module": null }, { "abbrev": false, "full_module": "Steel.FractionalPermission", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect.Atomic", "short_module": null }, { "abbrev": false, "full_module": "Steel.Memory", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	phead: Steel.Reference.ref (CQueue.Cell.ccell_ptrvalue a) -> head: CQueue.Cell.ccell_lvalue a -> next: CQueue.Cell.ccell_ptrvalue a -> tl: FStar.Ghost.erased (Prims.list a) -> Steel.Effect.Atomic.SteelGhost (FStar.Ghost.erased (Prims.list a))	Steel.Effect.Atomic.SteelGhost	[]	[]	[ "Steel.Memory.inames", "Steel.Reference.ref", "CQueue.Cell.ccell_ptrvalue", "CQueue.Cell.ccell_lvalue", "FStar.Ghost.erased", "Prims.list", "Prims.unit", "Steel.Effect.Atomic.change_equal_slprop", "CQueue.vbind", "Steel.Effect.Common.star", "CQueue.Cell.ccell_is_lvalue", "Steel.Effect.Common.vrefine", "CQueue.Cell.ccell", "CQueue.llist_fragment_head_data_refine", "FStar.List.Tot.Base.hd", "FStar.Ghost.reveal", "FStar.Pervasives.Native.tuple2", "CQueue.llist_fragment_head_payload", "CQueue.llist_fragment_head", "FStar.Ghost.hide", "FStar.List.Tot.Base.tl", "CQueue.llist_fragment_head_eq_cons", "CQueue.intro_vbind", "CQueue.Cell.ccell_next", "Steel.Effect.Atomic.intro_vrefine", "CQueue.Cell.intro_ccell_is_lvalue", "Prims.b2t", "Prims.uu___is_Cons", "Prims.Cons", "CQueue.Cell.__proj__Mkvcell__item__vcell_data", "Steel.Effect.Common.t_of", "Steel.Effect.Atomic.gget" ]	[]	false	true	false	false	false	let intro_llist_fragment_head_cons #_ #a phead head next tl =	let vc = gget (ccell head) in let l':(l': Ghost.erased (list a) {Cons? l'}) = Ghost.hide (vc.vcell_data :: tl) in intro_ccell_is_lvalue head; intro_vrefine (ccell head) (llist_fragment_head_data_refine (L.hd l')); intro_vbind ((ccell_is_lvalue head) `star` ((ccell head) `vrefine` (llist_fragment_head_data_refine (L.hd l')))) (llist_fragment_head tl (ccell_next head) next) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l') (llist_fragment_head (L.tl l'))); llist_fragment_head_eq_cons l' phead head; change_equal_slprop (vbind ((ccell_is_lvalue head) `star` ((ccell head) `vrefine` (llist_fragment_head_data_refine (L.hd l')))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l') (llist_fragment_head (L.tl l')))) (llist_fragment_head l' phead head); l'	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vmrghw	val va_codegen_success_Vmrghw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vmrghw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 399, "start_col": 0, "start_line": 398 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vmrghw dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Xxmrghd	val va_code_Xxmrghd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Xxmrghd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 424, "start_col": 0, "start_line": 423 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Xxmrghd", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Xxmrghd dst src1 src2 =	(Ins (S.Xxmrghd dst src1 src2))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Xxmrghd	val va_codegen_success_Xxmrghd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Xxmrghd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 428, "start_col": 0, "start_line": 427 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Xxmrghd dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vmrghw	val va_code_Vmrghw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vmrghw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 32, "end_line": 395, "start_col": 0, "start_line": 394 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vmrghw", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vmrghw dst src1 src2 =	(Ins (S.Vmrghw dst src1 src2))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vxor	val va_wpProof_Vxor : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vxor dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vxor dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vxor : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vxor dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vxor dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 213, "start_col": 0, "start_line": 207 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vxor", "Vale.PPC64LE.InsVector.va_code_Vxor" ]	[]	false	false	false	false	false	let va_wpProof_Vxor dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vsel	val va_code_Vsel : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> Tot va_code	val va_code_Vsel : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> Tot va_code	let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 34, "end_line": 453, "start_col": 0, "start_line": 452 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> sel: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vsel", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vsel dst src1 src2 sel =	(Ins (S.Vsel dst src1 src2 sel))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Mfvsrld	val va_lemma_Mfvsrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mfvsrld dst src) va_s0 /\ va_is_dst_reg_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_reg_opr va_sM dst == Vale.Arch.Types.lo64 (va_eval_vec_opr va_sM src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))	val va_lemma_Mfvsrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mfvsrld dst src) va_s0 /\ va_is_dst_reg_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_reg_opr va_sM dst == Vale.Arch.Types.lo64 (va_eval_vec_opr va_sM src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))	let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 87, "start_col": 0, "start_line": 81 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.Arch.Types.lo64_reveal", "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.Mfvsrld", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Mfvsrld" ]	[]	false	false	false	false	false	let va_lemma_Mfvsrld va_b0 va_s0 dst src =	va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Mfvsrld	val va_wpProof_Mfvsrld : dst:va_operand_reg_opr -> src:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Mfvsrld dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mfvsrld dst src) ([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Mfvsrld : dst:va_operand_reg_opr -> src:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Mfvsrld dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mfvsrld dst src) ([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 97, "start_col": 0, "start_line": 91 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_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.InsVector.va_lemma_Mfvsrld", "Vale.PPC64LE.InsVector.va_code_Mfvsrld" ]	[]	false	false	false	false	false	let va_wpProof_Mfvsrld dst src va_s0 va_k =	let va_sM, va_f0 = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vadduwm	val va_wpProof_Vadduwm : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vadduwm dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vadduwm dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vadduwm : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vadduwm dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vadduwm dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 184, "start_col": 0, "start_line": 178 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vadduwm", "Vale.PPC64LE.InsVector.va_code_Vadduwm" ]	[]	false	false	false	false	false	let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Mfvsrd	val va_lemma_Mfvsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mfvsrd dst src) va_s0 /\ va_is_dst_reg_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_reg_opr va_sM dst == Vale.Arch.Types.hi64 (va_eval_vec_opr va_sM src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))	val va_lemma_Mfvsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mfvsrd dst src) va_s0 /\ va_is_dst_reg_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_reg_opr va_sM dst == Vale.Arch.Types.hi64 (va_eval_vec_opr va_sM src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))	let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 57, "start_col": 0, "start_line": 51 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.Arch.Types.hi64_reveal", "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.Mfvsrd", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Mfvsrd" ]	[]	false	false	false	false	false	let va_lemma_Mfvsrd va_b0 va_s0 dst src =	va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Mtvsrws	val va_wpProof_Mtvsrws : dst:va_operand_vec_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_Mtvsrws dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mtvsrws dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Mtvsrws : dst:va_operand_vec_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_Mtvsrws dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mtvsrws dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 155, "start_col": 0, "start_line": 149 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_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)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "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_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Mtvsrws", "Vale.PPC64LE.InsVector.va_code_Mtvsrws" ]	[]	false	false	false	false	false	let va_wpProof_Mtvsrws dst src va_s0 va_k =	let va_sM, va_f0 = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vadduwm	val va_lemma_Vadduwm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vadduwm dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_vec_opr va_s0 src1) (va_eval_vec_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vadduwm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vadduwm dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_vec_opr va_s0 src1) (va_eval_vec_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 174, "start_col": 0, "start_line": 169 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vadduwm", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vadduwm" ]	[]	false	false	false	false	false	let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vspltw	val va_codegen_success_Vspltw : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> Tot va_pbool	val va_codegen_success_Vspltw : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> Tot va_pbool	let va_codegen_success_Vspltw dst src uim = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 486, "start_col": 0, "start_line": 485 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> uim: Vale.Def.Words_s.nat2 -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.Def.Words_s.nat2", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vspltw dst src uim =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vsel	val va_codegen_success_Vsel : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vsel : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 457, "start_col": 0, "start_line": 456 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> sel: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vsel dst src1 src2 sel =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vspltw	val va_code_Vspltw : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> Tot va_code	val va_code_Vspltw : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> Tot va_code	let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 30, "end_line": 482, "start_col": 0, "start_line": 481 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> uim: Vale.Def.Words_s.nat2 -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.Def.Words_s.nat2", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vspltw", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vspltw dst src uim =	(Ins (S.Vspltw dst src uim))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Mtvsrws	val va_lemma_Mtvsrws : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_reg_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mtvsrws dst src) va_s0 /\ va_is_dst_vec_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 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Mtvsrws : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_reg_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mtvsrws dst src) va_s0 /\ va_is_dst_vec_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 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src `op_Modulus` pow2_32 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 145, "start_col": 0, "start_line": 140 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_reg_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.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.Mtvsrws", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Mtvsrws" ]	[]	false	false	false	false	false	let va_lemma_Mtvsrws va_b0 va_s0 dst src =	va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM)	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.poly1305_update_multi_loop	val poly1305_update_multi_loop: #s:field_spec -> bs:size_t{v bs == width s * S.size_block} -> len:size_t{v len % v (blocklen s) == 0} -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h pre /\ live h acc /\ live h text /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 pre /\ feval h1 acc == LSeq.repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc))	val poly1305_update_multi_loop: #s:field_spec -> bs:size_t{v bs == width s * S.size_block} -> len:size_t{v len % v (blocklen s) == 0} -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h pre /\ live h acc /\ live h text /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 pre /\ feval h1 acc == LSeq.repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc))	let poly1305_update_multi_loop #s bs len text pre acc = let nb = len /. bs in let h0 = ST.get () in LSeq.lemma_repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc); [@ inline_let] let spec_fh h0 = LSeq.repeat_blocks_f (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (v nb) in [@ inline_let] let inv h (i:nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre /\ feval h acc == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc) in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc) (v i); poly1305_update_multi_f #s pre bs nb len text i acc)	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 58, "end_line": 486, "start_col": 0, "start_line": 463 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len ! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi [@ Meta.Attribute.specialize ] let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr inline_for_extraction noextract val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0]) let update1 #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame () let poly1305_update1 #s ctx text = let pre = get_precomp_r ctx in let acc = get_acc ctx in update1 pre text acc inline_for_extraction noextract val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0]) #push-options "--z3rlimit 200" let poly1305_update_last #s pre len b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_last e len b; fadd_mul_r acc e pre; pop_frame () #pop-options inline_for_extraction noextract val poly1305_update_nblocks: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 (blocklen s) -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint acc p /\ disjoint acc b /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ feval h1 acc == Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul)) (as_seq h0 b) (feval h0 acc)) let poly1305_update_nblocks #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_blocks e b; fmul_rn acc acc pre; fadd acc acc e; pop_frame () inline_for_extraction noextract val poly1305_update1_f: #s:field_spec -> p:precomp_r s -> nb:size_t -> len:size_t{v nb == v len / 16} -> text:lbuffer uint8 len -> i:size_t{v i < v nb} -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h text /\ live h acc /\ disjoint acc p /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == LSeq.repeat_blocks_f #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16) (v nb) (v i) (feval h0 acc).[0]) let poly1305_update1_f #s pre nb len text i acc= assert ((v i + 1) 16 <= v nb * 16); let block = sub #_ #_ #len text (i ! 16ul) 16ul in update1 #s pre block acc #push-options "--z3rlimit 100 --max_fuel 1" inline_for_extraction noextract val poly1305_update_scalar: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0]) let poly1305_update_scalar #s len text pre acc = let nb = len /. 16ul in let rem = len %. 16ul in let h0 = ST.get () in LSeq.lemma_repeat_blocks #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (S.poly1305_update_last (feval h0 (gsub pre 0ul 5ul)).[0]) (feval h0 acc).[0]; [@ inline_let] let spec_fh h0 = LSeq.repeat_blocks_f 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (v nb) in [@ inline_let] let inv h (i:nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre /\ (feval h acc).[0] == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc).[0] in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc).[0] (v i); poly1305_update1_f #s pre nb len text i acc); let h1 = ST.get () in assert ((feval h1 acc).[0] == Lib.LoopCombinators.repeati (v nb) (spec_fh h0) (feval h0 acc).[0]); if rem >. 0ul then ( let last = sub text (nb ! 16ul) rem in as_seq_gsub h1 text (nb ! 16ul) rem; assert (disjoint acc last); poly1305_update_last #s pre rem last acc) #pop-options inline_for_extraction noextract val poly1305_update_multi_f: #s:field_spec -> p:precomp_r s -> bs:size_t{v bs == width s S.size_block} -> nb:size_t -> len:size_t{v nb == v len / v bs /\ v len % v bs == 0} -> text:lbuffer uint8 len -> i:size_t{v i < v nb} -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h text /\ live h acc /\ disjoint acc p /\ disjoint acc text /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 p /\ feval h1 acc == LSeq.repeat_blocks_f #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul))) (v nb) (v i) (feval h0 acc)) let poly1305_update_multi_f #s pre bs nb len text i acc= assert ((v i + 1) * v bs <= v nb * v bs); let block = sub #_ #_ #len text (i ! bs) bs in let h1 = ST.get () in as_seq_gsub h1 text (i ! bs) bs; poly1305_update_nblocks #s pre block acc #push-options "--max_fuel 1" inline_for_extraction noextract val poly1305_update_multi_loop: #s:field_spec -> bs:size_t{v bs == width s * S.size_block} -> len:size_t{v len % v (blocklen s) == 0} -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h pre /\ live h acc /\ live h text /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 pre /\ feval h1 acc == LSeq.repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc))	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 1, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	bs: Lib.IntTypes.size_t {Lib.IntTypes.v bs == Hacl.Impl.Poly1305.Fields.width s * Spec.Poly1305.size_block} -> len: Lib.IntTypes.size_t {Lib.IntTypes.v len % Lib.IntTypes.v (Hacl.Impl.Poly1305.Fields.blocklen s) == 0} -> text: Lib.Buffer.lbuffer Lib.IntTypes.uint8 len -> pre: Hacl.Impl.Poly1305.Fields.precomp_r s -> acc: Hacl.Impl.Poly1305.Fields.felem s -> FStar.HyperStack.ST.Stack Prims.unit	FStar.HyperStack.ST.Stack	[]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Lib.IntTypes.size_t", "Prims.eq2", "Prims.int", "Lib.IntTypes.v", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "FStar.Mul.op_Star", "Hacl.Impl.Poly1305.Fields.width", "Spec.Poly1305.size_block", "Prims.op_Modulus", "Hacl.Impl.Poly1305.Fields.blocklen", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "Hacl.Impl.Poly1305.Fields.precomp_r", "Hacl.Impl.Poly1305.Fields.felem", "Lib.Loops.for", "Lib.IntTypes.size", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "Prims.op_LessThan", "Hacl.Impl.Poly1305.poly1305_update_multi_f", "Prims.unit", "Lib.LoopCombinators.unfold_repeati", "Hacl.Spec.Poly1305.Vec.elem", "Hacl.Spec.Poly1305.Vec.lanes", "Hacl.Impl.Poly1305.Fields.feval", "FStar.Monotonic.HyperStack.mem", "Prims.nat", "Prims.logical", "Lib.Buffer.modifies1", "Hacl.Impl.Poly1305.Fields.limb", "Lib.Buffer.live", "Lib.Buffer.MUT", "Lib.Buffer.disjoint", "Hacl.Impl.Poly1305.Fields.felem_fits", "FStar.Pervasives.Native.Mktuple5", "Hacl.Impl.Poly1305.Field32xN.load_precompute_r_post", "Lib.Sequence.lseq", "Spec.Poly1305.felem", "Lib.LoopCombinators.repeati", "Lib.Sequence.repeat_blocks_f", "Lib.Buffer.as_seq", "Hacl.Spec.Poly1305.Vec.poly1305_update_nblocks", "Lib.Buffer.gsub", "Hacl.Impl.Poly1305.Fields.precomplen", "FStar.UInt32.__uint_to_t", "Lib.Sequence.lemma_repeat_blocks_multi", "FStar.HyperStack.ST.get", "Lib.IntTypes.int_t", "Lib.IntTypes.op_Slash_Dot" ]	[]	false	true	false	false	false	let poly1305_update_multi_loop #s bs len text pre acc =	let nb = len /. bs in let h0 = ST.get () in LSeq.lemma_repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc); [@@ inline_let ]let spec_fh h0 = LSeq.repeat_blocks_f (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (v nb) in [@@ inline_let ]let inv h (i: nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre /\ feval h acc == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc) in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc) (v i); poly1305_update_multi_f #s pre bs nb len text i acc)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vand	val va_wpProof_Vand : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vand dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vand dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vand : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vand dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vand dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 242, "start_col": 0, "start_line": 236 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vand", "Vale.PPC64LE.InsVector.va_code_Vand" ]	[]	false	false	false	false	false	let va_wpProof_Vand dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vslw	val va_wpProof_Vslw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vslw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vslw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vslw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vslw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vslw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 271, "start_col": 0, "start_line": 265 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vslw", "Vale.PPC64LE.InsVector.va_code_Vslw" ]	[]	false	false	false	false	false	let va_wpProof_Vslw dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Mtvsrdd	val va_lemma_Mtvsrdd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mtvsrdd dst src1 src2) va_s0 /\ va_is_dst_vec_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_mul_nat pow2_32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst)) + Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src1 /\ va_mul_nat pow2_32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst)) + Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src2 /\ va_eval_vec_opr va_sM dst == Vale.Def.Words.Four_s.two_two_to_four #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.Mktwo #(Vale.Def.Words_s.two Vale.Def.Types_s.nat32) (Vale.Def.Words_s.Mktwo #Vale.Def.Types_s.nat32 (va_eval_reg_opr va_s0 src2 `op_Modulus` pow2_32) (va_eval_reg_opr va_s0 src2 `op_Division` pow2_32)) (Vale.Def.Words_s.Mktwo #Vale.Def.Types_s.nat32 (va_eval_reg_opr va_s0 src1 `op_Modulus` pow2_32) (va_eval_reg_opr va_s0 src1 `op_Division` pow2_32))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Mtvsrdd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Mtvsrdd dst src1 src2) va_s0 /\ va_is_dst_vec_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_mul_nat pow2_32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst)) + Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src1 /\ va_mul_nat pow2_32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst)) + Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == va_eval_reg_opr va_s0 src2 /\ va_eval_vec_opr va_sM dst == Vale.Def.Words.Four_s.two_two_to_four #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.Mktwo #(Vale.Def.Words_s.two Vale.Def.Types_s.nat32) (Vale.Def.Words_s.Mktwo #Vale.Def.Types_s.nat32 (va_eval_reg_opr va_s0 src2 `op_Modulus` pow2_32) (va_eval_reg_opr va_s0 src2 `op_Division` pow2_32)) (Vale.Def.Words_s.Mktwo #Vale.Def.Types_s.nat32 (va_eval_reg_opr va_s0 src1 `op_Modulus` pow2_32) (va_eval_reg_opr va_s0 src1 `op_Division` pow2_32))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 116, "start_col": 0, "start_line": 111 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_reg_opr -> src2: Vale.PPC64LE.Decls.va_operand_reg_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.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.Mtvsrdd", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Mtvsrdd" ]	[]	false	false	false	false	false	let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vand	val va_lemma_Vand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vand dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_vec_opr va_s0 src1) (va_eval_vec_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vand dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_vec_opr va_s0 src1) (va_eval_vec_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 232, "start_col": 0, "start_line": 227 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vand", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vand" ]	[]	false	false	false	false	false	let va_lemma_Vand va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vxor	val va_lemma_Vxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vxor dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_vec_opr va_s0 src1) (va_eval_vec_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vxor dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_vec_opr va_s0 src1) (va_eval_vec_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 203, "start_col": 0, "start_line": 198 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vxor", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vxor" ]	[]	false	false	false	false	false	let va_lemma_Vxor va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vspltisb	val va_code_Vspltisb : dst:va_operand_vec_opr -> src:sim -> Tot va_code	val va_code_Vspltisb : dst:va_operand_vec_opr -> src:sim -> Tot va_code	let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 28, "end_line": 540, "start_col": 0, "start_line": 539 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vspltisb", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vspltisb dst src =	(Ins (S.Vspltisb dst src))	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.update1	val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0])	val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0])	let update1 #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame ()	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 14, "end_line": 258, "start_col": 0, "start_line": 253 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len *! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi [@ Meta.Attribute.specialize ] let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr inline_for_extraction noextract val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0])	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	p: Hacl.Impl.Poly1305.Fields.precomp_r s -> b: Lib.Buffer.lbuffer Lib.IntTypes.uint8 16ul -> acc: Hacl.Impl.Poly1305.Fields.felem s -> FStar.HyperStack.ST.Stack Prims.unit	FStar.HyperStack.ST.Stack	[]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Hacl.Impl.Poly1305.Fields.precomp_r", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "FStar.UInt32.__uint_to_t", "Hacl.Impl.Poly1305.Fields.felem", "FStar.HyperStack.ST.pop_frame", "Prims.unit", "Hacl.Impl.Poly1305.Fields.fadd_mul_r", "Hacl.Impl.Poly1305.poly1305_encode_block", "Lib.Buffer.lbuffer_t", "Lib.Buffer.MUT", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.create", "Hacl.Impl.Poly1305.Fields.limb", "Hacl.Impl.Poly1305.Fields.nlimb", "Hacl.Impl.Poly1305.Fields.limb_zero", "FStar.HyperStack.ST.push_frame" ]	[]	false	true	false	false	false	let update1 #s pre b acc =	push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame ()	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vspltisw	val va_codegen_success_Vspltisw : dst:va_operand_vec_opr -> src:sim -> Tot va_pbool	val va_codegen_success_Vspltisw : dst:va_operand_vec_opr -> src:sim -> Tot va_pbool	let va_codegen_success_Vspltisw dst src = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 515, "start_col": 0, "start_line": 514 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vspltisw dst src =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vspltisw	val va_code_Vspltisw : dst:va_operand_vec_opr -> src:sim -> Tot va_code	val va_code_Vspltisw : dst:va_operand_vec_opr -> src:sim -> Tot va_code	let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 28, "end_line": 511, "start_col": 0, "start_line": 510 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vspltisw", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vspltisw dst src =	(Ins (S.Vspltisw dst src))	false
FStar.Math.Fermat.fst	FStar.Math.Fermat.binomial_theorem_aux	val binomial_theorem_aux (a b:int) (n:nat) (i:nat{1 <= i /\ i <= n - 1}) : Lemma (a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)) == binomial n i * pow a (n - i) * pow b i)	val binomial_theorem_aux (a b:int) (n:nat) (i:nat{1 <= i /\ i <= n - 1}) : Lemma (a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)) == binomial n i * pow a (n - i) * pow b i)	let binomial_theorem_aux a b n i = let open FStar.Math.Lemmas in calc (==) { a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)); == { } a * (binomial (n - 1) i * pow a ((n - i) - 1) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - i) * pow b (i - 1)); == { _ by (FStar.Tactics.CanonCommSemiring.int_semiring()) } binomial (n - 1) i * ((a * pow a ((n - i) - 1)) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * (b * pow b (i - 1))); == { assert (a * pow a ((n - i) - 1) == pow a (n - i)); assert (b * pow b (i - 1) == pow b i) } binomial (n - 1) i * (pow a (n - i) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * pow b i); == { _ by (FStar.Tactics.CanonCommSemiring.int_semiring()) } (binomial (n - 1) i + binomial (n - 1) (i - 1)) * (pow a (n - i) * pow b i); == { pascal (n - 1) i } binomial n i * (pow a (n - i) * pow b i); == { paren_mul_right (binomial n i) (pow a (n - i)) (pow b i) } binomial n i * pow a (n - i) * pow b i; }	{ "file_name": "ulib/FStar.Math.Fermat.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 3, "end_line": 266, "start_col": 0, "start_line": 246 }	module FStar.Math.Fermat open FStar.Mul open FStar.Math.Lemmas open FStar.Math.Euclid #set-options "--fuel 1 --ifuel 0 --z3rlimit 20" /// /// Pow /// val pow_zero (k:pos) : Lemma (ensures pow 0 k == 0) (decreases k) let rec pow_zero k = match k with \| 1 -> () \| _ -> pow_zero (k - 1) val pow_one (k:nat) : Lemma (pow 1 k == 1) let rec pow_one = function \| 0 -> () \| k -> pow_one (k - 1) val pow_plus (a:int) (k m:nat): Lemma (pow a (k + m) == pow a k * pow a m) let rec pow_plus a k m = match k with \| 0 -> () \| _ -> calc (==) { pow a (k + m); == { } a * pow a ((k + m) - 1); == { pow_plus a (k - 1) m } a * (pow a (k - 1) * pow a m); == { } pow a k * pow a m; } val pow_mod (p:pos) (a:int) (k:nat) : Lemma (pow a k % p == pow (a % p) k % p) let rec pow_mod p a k = if k = 0 then () else calc (==) { pow a k % p; == { } a * pow a (k - 1) % p; == { lemma_mod_mul_distr_r a (pow a (k - 1)) p } (a * (pow a (k - 1) % p)) % p; == { pow_mod p a (k - 1) } (a * (pow (a % p) (k - 1) % p)) % p; == { lemma_mod_mul_distr_r a (pow (a % p) (k - 1)) p } a * pow (a % p) (k - 1) % p; == { lemma_mod_mul_distr_l a (pow (a % p) (k - 1)) p } (a % p * pow (a % p) (k - 1)) % p; == { } pow (a % p) k % p; } /// /// Binomial theorem /// val binomial (n k:nat) : nat let rec binomial n k = match n, k with \| _, 0 -> 1 \| 0, _ -> 0 \| _, _ -> binomial (n - 1) k + binomial (n - 1) (k - 1) val binomial_0 (n:nat) : Lemma (binomial n 0 == 1) let binomial_0 n = () val binomial_lt (n:nat) (k:nat{n < k}) : Lemma (binomial n k = 0) let rec binomial_lt n k = match n, k with \| _, 0 -> () \| 0, _ -> () \| _ -> binomial_lt (n - 1) k; binomial_lt (n - 1) (k - 1) val binomial_n (n:nat) : Lemma (binomial n n == 1) let rec binomial_n n = match n with \| 0 -> () \| _ -> binomial_lt n (n + 1); binomial_n (n - 1) val pascal (n:nat) (k:pos{k <= n}) : Lemma (binomial n k + binomial n (k - 1) = binomial (n + 1) k) let pascal n k = () val factorial: nat -> pos let rec factorial = function \| 0 -> 1 \| n -> n * factorial (n - 1) let ( ! ) n = factorial n val binomial_factorial (m n:nat) : Lemma (binomial (n + m) n * (!n * !m) == !(n + m)) let rec binomial_factorial m n = match m, n with \| 0, _ -> binomial_n n \| _, 0 -> () \| _ -> let open FStar.Math.Lemmas in let reorder1 (a b c d:int) : Lemma (a * (b * (c * d)) == c * (a * (b * d))) = assert (a * (b * (c * d)) == c * (a * (b * d))) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in let reorder2 (a b c d:int) : Lemma (a * ((b * c) * d) == b * (a * (c * d))) = assert (a * ((b * c) * d) == b * (a * (c * d))) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in calc (==) { binomial (n + m) n * (!n * !m); == { pascal (n + m - 1) n } (binomial (n + m - 1) n + binomial (n + m - 1) (n - 1)) * (!n * !m); == { addition_is_associative n m (-1) } (binomial (n + (m - 1)) n + binomial (n + (m - 1)) (n - 1)) * (!n * !m); == { distributivity_add_left (binomial (n + (m - 1)) n) (binomial (n + (m - 1)) (n - 1)) (!n * !m) } binomial (n + (m - 1)) n * (!n * !m) + binomial (n + (m - 1)) (n - 1) * (!n * !m); == { } binomial (n + (m - 1)) n * (!n * (m * !(m - 1))) + binomial ((n - 1) + m) (n - 1) * ((n * !(n - 1)) * !m); == { reorder1 (binomial (n + (m - 1)) n) (!n) m (!(m - 1)); reorder2 (binomial ((n - 1) + m) (n - 1)) n (!(n - 1)) (!m) } m * (binomial (n + (m - 1)) n * (!n * !(m - 1))) + n * (binomial ((n - 1) + m) (n - 1) * (!(n - 1) * !m)); == { binomial_factorial (m - 1) n; binomial_factorial m (n - 1) } m * !(n + (m - 1)) + n * !((n - 1) + m); == { } m * !(n + m - 1) + n * !(n + m - 1); == { } n * !(n + m - 1) + m * !(n + m - 1); == { distributivity_add_left m n (!(n + m - 1)) } (n + m) * !(n + m - 1); == { } !(n + m); } val sum: a:nat -> b:nat{a <= b} -> f:((i:nat{a <= i /\ i <= b}) -> int) -> Tot int (decreases (b - a)) let rec sum a b f = if a = b then f a else f a + sum (a + 1) b f val sum_extensionality (a:nat) (b:nat{a <= b}) (f g:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (requires forall (i:nat{a <= i /\ i <= b}). f i == g i) (ensures sum a b f == sum a b g) (decreases (b - a)) let rec sum_extensionality a b f g = if a = b then () else sum_extensionality (a + 1) b f g val sum_first (a:nat) (b:nat{a < b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (sum a b f == f a + sum (a + 1) b f) let sum_first a b f = () val sum_last (a:nat) (b:nat{a < b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f == sum a (b - 1) f + f b) (decreases (b - a)) let rec sum_last a b f = if a + 1 = b then sum_first a b f else sum_last (a + 1) b f val sum_const (a:nat) (b:nat{a <= b}) (k:int) : Lemma (ensures sum a b (fun i -> k) == k * (b - a + 1)) (decreases (b - a)) let rec sum_const a b k = if a = b then () else begin sum_const (a + 1) b k; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> k) (fun (i:nat{a + 1 <= i /\ i <= b}) -> k) end val sum_scale (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) (k:int) : Lemma (ensures k * sum a b f == sum a b (fun i -> k * f i)) (decreases (b - a)) let rec sum_scale a b f k = if a = b then () else begin sum_scale (a + 1) b f k; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> k * f i) (fun (i:nat{a + 1 <= i /\ i <= b}) -> k * f i) end val sum_add (a:nat) (b:nat{a <= b}) (f g:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f + sum a b g == sum a b (fun i -> f i + g i)) (decreases (b - a)) let rec sum_add a b f g = if a = b then () else begin sum_add (a + 1) b f g; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> f i + g i) (fun (i:nat{a + 1 <= i /\ i <= b}) -> f i + g i) end val sum_shift (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f == sum (a + 1) (b + 1) (fun (i:nat{a + 1 <= i /\ i <= b + 1}) -> f (i - 1))) (decreases (b - a)) let rec sum_shift a b f = if a = b then () else begin sum_shift (a + 1) b f; sum_extensionality (a + 2) (b + 1) (fun (i:nat{a + 1 <= i /\ i <= b + 1}) -> f (i - 1)) (fun (i:nat{a + 1 + 1 <= i /\ i <= b + 1}) -> f (i - 1)) end val sum_mod (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) (n:pos) : Lemma (ensures sum a b f % n == sum a b (fun i -> f i % n) % n) (decreases (b - a)) let rec sum_mod a b f n = if a = b then () else let g = fun (i:nat{a <= i /\ i <= b}) -> f i % n in let f' = fun (i:nat{a + 1 <= i /\ i <= b}) -> f i % n in calc (==) { sum a b f % n; == { sum_first a b f } (f a + sum (a + 1) b f) % n; == { lemma_mod_plus_distr_r (f a) (sum (a + 1) b f) n } (f a + (sum (a + 1) b f) % n) % n; == { sum_mod (a + 1) b f n; sum_extensionality (a + 1) b f' g } (f a + sum (a + 1) b g % n) % n; == { lemma_mod_plus_distr_r (f a) (sum (a + 1) b g) n } (f a + sum (a + 1) b g) % n; == { lemma_mod_plus_distr_l (f a) (sum (a + 1) b g) n } (f a % n + sum (a + 1) b g) % n; == { } sum a b g % n; } val binomial_theorem_aux (a b:int) (n:nat) (i:nat{1 <= i /\ i <= n - 1}) : Lemma (a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)) ==	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Tactics.Effect.fsti.checked", "FStar.Tactics.CanonCommSemiring.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.Math.Euclid.fsti.checked", "FStar.Classical.fsti.checked", "FStar.Calc.fsti.checked" ], "interface_file": true, "source_file": "FStar.Math.Fermat.fst" }	[ { "abbrev": false, "full_module": "FStar.Math.Euclid", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math.Euclid", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 1, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": 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": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Prims.int -> b: Prims.int -> n: Prims.nat -> i: Prims.nat{1 <= i /\ i <= n - 1} -> FStar.Pervasives.Lemma (ensures a * ((FStar.Math.Fermat.binomial (n - 1) i * FStar.Math.Fermat.pow a (n - 1 - i)) * FStar.Math.Fermat.pow b i) + b * ((FStar.Math.Fermat.binomial (n - 1) (i - 1) * FStar.Math.Fermat.pow a (n - 1 - (i - 1))) * FStar.Math.Fermat.pow b (i - 1)) == (FStar.Math.Fermat.binomial n i * FStar.Math.Fermat.pow a (n - i)) * FStar.Math.Fermat.pow b i )	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Prims.nat", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "Prims.op_Subtraction", "FStar.Calc.calc_finish", "Prims.eq2", "Prims.op_Addition", "FStar.Mul.op_Star", "FStar.Math.Fermat.binomial", "FStar.Math.Fermat.pow", "Prims.Cons", "FStar.Preorder.relation", "Prims.Nil", "Prims.unit", "FStar.Calc.calc_step", "FStar.Calc.calc_init", "FStar.Calc.calc_pack", "Prims.squash", "FStar.Tactics.CanonCommSemiring.semiring_reflect", "FStar.Tactics.CanonCommSemiring.int_cr", "FStar.Pervasives.Native.Mktuple2", "Prims.list", "FStar.Pervasives.Native.tuple2", "FStar.Pervasives.Native.snd", "Prims.op_GreaterThanOrEqual", "Prims.op_Equality", "Prims.bool", "FStar.Stubs.Reflection.V2.Data.var", "FStar.Tactics.CanonCommSemiring.Pplus", "FStar.Tactics.CanonCommSemiring.Pmult", "FStar.Tactics.CanonCommSemiring.Pvar", "Prims._assert", "FStar.Math.Fermat.pascal", "FStar.Math.Lemmas.paren_mul_right" ]	[]	false	false	true	false	false	let binomial_theorem_aux a b n i =	let open FStar.Math.Lemmas in calc ( == ) { a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i) + b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1)); ( == ) { () } a * ((binomial (n - 1) i * pow a ((n - i) - 1)) * pow b i) + b * ((binomial (n - 1) (i - 1) * pow a (n - i)) * pow b (i - 1)); ( == ) { FStar.Tactics.Effect.synth_by_tactic (fun _ -> (FStar.Tactics.CanonCommSemiring.int_semiring ())) } binomial (n - 1) i * ((a * pow a ((n - i) - 1)) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * (b * pow b (i - 1))); ( == ) { (assert (a * pow a ((n - i) - 1) == pow a (n - i)); assert (b * pow b (i - 1) == pow b i)) } binomial (n - 1) i * (pow a (n - i) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * pow b i); ( == ) { FStar.Tactics.Effect.synth_by_tactic (fun _ -> (FStar.Tactics.CanonCommSemiring.int_semiring ())) } (binomial (n - 1) i + binomial (n - 1) (i - 1)) * (pow a (n - i) * pow b i); ( == ) { pascal (n - 1) i } binomial n i * (pow a (n - i) * pow b i); ( == ) { paren_mul_right (binomial n i) (pow a (n - i)) (pow b i) } (binomial n i * pow a (n - i)) * pow b i; }	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vspltisb	val va_codegen_success_Vspltisb : dst:va_operand_vec_opr -> src:sim -> Tot va_pbool	val va_codegen_success_Vspltisb : dst:va_operand_vec_opr -> src:sim -> Tot va_pbool	let va_codegen_success_Vspltisb dst src = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 544, "start_col": 0, "start_line": 543 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vspltisb dst src =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vsrw	val va_wpProof_Vsrw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsrw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsrw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vsrw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsrw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsrw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 300, "start_col": 0, "start_line": 294 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vsrw", "Vale.PPC64LE.InsVector.va_code_Vsrw" ]	[]	false	false	false	false	false	let va_wpProof_Vsrw dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vsrw	val va_lemma_Vsrw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsrw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vsrw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsrw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishr32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 290, "start_col": 0, "start_line": 285 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vsrw", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vsrw" ]	[]	false	false	false	false	false	let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Xxmrghd	val va_wpProof_Xxmrghd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Xxmrghd dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Xxmrghd dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Xxmrghd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Xxmrghd dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Xxmrghd dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 446, "start_col": 0, "start_line": 440 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Xxmrghd", "Vale.PPC64LE.InsVector.va_code_Xxmrghd" ]	[]	false	false	false	false	false	let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Load128_buffer	val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 35, "end_line": 569, "start_col": 0, "start_line": 568 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Load128", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Load128_buffer h dst base offset t =	(Ins (S.Load128 dst base offset))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Load128_buffer	val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 573, "start_col": 0, "start_line": 572 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Load128_buffer h dst base offset t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vslw	val va_lemma_Vslw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vslw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vslw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vslw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) (Vale.Arch.Types.ishl32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2) `op_Modulus` 32)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 261, "start_col": 0, "start_line": 256 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vslw", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vslw" ]	[]	false	false	false	false	false	let va_lemma_Vslw va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vsl	val va_wpProof_Vsl : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsl dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsl dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vsl : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsl dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsl dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 329, "start_col": 0, "start_line": 323 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vsl", "Vale.PPC64LE.InsVector.va_code_Vsl" ]	[]	false	false	false	false	false	let va_wpProof_Vsl dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vsldoi	val va_wpProof_Vsldoi : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsldoi dst src1 src2 count va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsldoi dst src1 src2 count) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vsldoi : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsldoi dst src1 src2 count va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsldoi dst src1 src2 count) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 388, "start_col": 0, "start_line": 381 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> count: Vale.PPC64LE.Machine_s.quad32bytes -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.quad32bytes", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vsldoi", "Vale.PPC64LE.InsVector.va_code_Vsldoi" ]	[]	false	false	false	false	false	let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vcmpequw	val va_wpProof_Vcmpequw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vcmpequw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vcmpequw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vcmpequw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vcmpequw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vcmpequw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 358, "start_col": 0, "start_line": 352 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vcmpequw", "Vale.PPC64LE.InsVector.va_code_Vcmpequw" ]	[]	false	false	false	false	false	let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Store128_buffer	val va_code_Store128_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Store128_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 36, "end_line": 601, "start_col": 0, "start_line": 600 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Store128", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Store128_buffer h src base offset t =	(Ins (S.Store128 src base offset))	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.poly1305_update_last	val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0])	val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0])	let poly1305_update_last #s pre len b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_last e len b; fadd_mul_r acc e pre; pop_frame ()	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 14, "end_line": 292, "start_col": 0, "start_line": 287 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len *! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi [@ Meta.Attribute.specialize ] let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr inline_for_extraction noextract val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0]) let update1 #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame () let poly1305_update1 #s ctx text = let pre = get_precomp_r ctx in let acc = get_acc ctx in update1 pre text acc inline_for_extraction noextract val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0])	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 200, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	p: Hacl.Impl.Poly1305.Fields.precomp_r s -> len: Lib.IntTypes.size_t{Lib.IntTypes.v len < 16} -> b: Lib.Buffer.lbuffer Lib.IntTypes.uint8 len -> acc: Hacl.Impl.Poly1305.Fields.felem s -> FStar.HyperStack.ST.Stack Prims.unit	FStar.HyperStack.ST.Stack	[]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Hacl.Impl.Poly1305.Fields.precomp_r", "Lib.IntTypes.size_t", "Prims.b2t", "Prims.op_LessThan", "Lib.IntTypes.v", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "Hacl.Impl.Poly1305.Fields.felem", "FStar.HyperStack.ST.pop_frame", "Prims.unit", "Hacl.Impl.Poly1305.Fields.fadd_mul_r", "Hacl.Impl.Poly1305.poly1305_encode_last", "Lib.Buffer.lbuffer_t", "Lib.Buffer.MUT", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.create", "Hacl.Impl.Poly1305.Fields.limb", "Hacl.Impl.Poly1305.Fields.nlimb", "Hacl.Impl.Poly1305.Fields.limb_zero", "FStar.HyperStack.ST.push_frame" ]	[]	false	true	false	false	false	let poly1305_update_last #s pre len b acc =	push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_last e len b; fadd_mul_r acc e pre; pop_frame ()	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Load128_word4_buffer	val va_code_Load128_word4_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Load128_word4_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 634, "start_col": 0, "start_line": 633 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Load128Word4", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Load128_word4_buffer h dst base t =	(Ins (S.Load128Word4 dst base))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Store128_buffer	val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 605, "start_col": 0, "start_line": 604 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Store128_buffer h src base offset t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vmrghw	val va_lemma_Vmrghw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vmrghw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vmrghw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vmrghw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 407, "start_col": 0, "start_line": 402 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vmrghw", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vmrghw" ]	[]	false	false	false	false	false	let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vsel	val va_wpProof_Vsel : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsel dst src1 src2 sel va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsel dst src1 src2 sel) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vsel : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsel dst src1 src2 sel va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsel dst src1 src2 sel) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 475, "start_col": 0, "start_line": 469 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> sel: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vsel", "Vale.PPC64LE.InsVector.va_code_Vsel" ]	[]	false	false	false	false	false	let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Load128_word4_buffer_index	val va_code_Load128_word4_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Load128_word4_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 45, "end_line": 666, "start_col": 0, "start_line": 665 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Load128Word4Index", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Load128_word4_buffer_index h dst base offset t =	(Ins (S.Load128Word4Index dst base offset))	false
CQueue.fst	CQueue.llist_fragment_head_is_nil	val llist_fragment_head_is_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost unit opened (llist_fragment_head l phead head) (fun _ -> llist_fragment_head l phead head) (fun h -> ccell_ptrvalue_is_null (snd (sel_llist_fragment_head l phead head h)) == true) (fun h _ h' -> Nil? l == ccell_ptrvalue_is_null head /\ h' (llist_fragment_head l phead head) == h (llist_fragment_head l phead head) )	val llist_fragment_head_is_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost unit opened (llist_fragment_head l phead head) (fun _ -> llist_fragment_head l phead head) (fun h -> ccell_ptrvalue_is_null (snd (sel_llist_fragment_head l phead head h)) == true) (fun h _ h' -> Nil? l == ccell_ptrvalue_is_null head /\ h' (llist_fragment_head l phead head) == h (llist_fragment_head l phead head) )	let llist_fragment_head_is_nil l phead head = if Nil? l then begin elim_llist_fragment_head_nil l phead head; assert (ccell_ptrvalue_is_null head == true); intro_llist_fragment_head_nil l phead head end else begin let r = elim_llist_fragment_head_cons l phead head in let head2 : ccell_lvalue _ = head in change_equal_slprop (llist_fragment_head r.ll_uncons_tl r.ll_uncons_pnext r.ll_uncons_next) (llist_fragment_head r.ll_uncons_tl (ccell_next head2) r.ll_uncons_next); change_equal_slprop (ccell head) (ccell head2); let l' = intro_llist_fragment_head_cons phead head2 r.ll_uncons_next r.ll_uncons_tl in change_equal_slprop (llist_fragment_head l' phead head2) (llist_fragment_head l phead head) end	{ "file_name": "share/steel/examples/steel/CQueue.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }	{ "end_col": 5, "end_line": 1126, "start_col": 0, "start_line": 1105 }	module CQueue open CQueue.LList #set-options "--ide_id_info_off" //Re-define squash, since this module explicitly //replies on proving equalities of the form `t_of v == squash p` //which are delicate in the presence of optimizations that //unfold `Prims.squash (p /\ q)`to _:unit{p /\ q} //See Issue #2496 let squash (p:Type u#a) : Type0 = squash p (* BEGIN library ) let intro_vrewrite_no_norm (#opened:inames) (v: vprop) (#t: Type) (f: (t_of v) -> GTot t) : SteelGhost unit opened v (fun _ -> vrewrite v f) (fun _ -> True) (fun h _ h' -> h' (vrewrite v f) == f (h v)) = intro_vrewrite v f let elim_vrewrite_no_norm (#opened:inames) (v: vprop) (#t: Type) (f: ((t_of v) -> GTot t)) : SteelGhost unit opened (vrewrite v f) (fun _ -> v) (fun _ -> True) (fun h _ h' -> h (vrewrite v f) == f (h' v)) = elim_vrewrite v f let vconst_sel (#a: Type) (x: a) : Tot (selector a (hp_of emp)) = fun _ -> x [@@ __steel_reduce__] let vconst' (#a: Type) (x: a) : GTot vprop' = { hp = hp_of emp; t = a; sel = vconst_sel x; } [@@ __steel_reduce__] let vconst (#a: Type) (x: a) : Tot vprop = VUnit (vconst' x) let intro_vconst (#opened: _) (#a: Type) (x: a) : SteelGhost unit opened emp (fun _ -> vconst x) (fun _ -> True) (fun _ _ h' -> h' (vconst x) == x) = change_slprop_rel emp (vconst x) (fun _ y -> y == x) (fun _ -> ()) let elim_vconst (#opened: _) (#a: Type) (x: a) : SteelGhost unit opened (vconst x) (fun _ -> emp) (fun _ -> True) (fun h _ _ -> h (vconst x) == x) = change_slprop_rel (vconst x) emp (fun y _ -> y == x) (fun _ -> ()) let vpure_sel' (p: prop) : Tot (selector' (squash p) (Steel.Memory.pure p)) = fun (m: Steel.Memory.hmem (Steel.Memory.pure p)) -> pure_interp p m let vpure_sel (p: prop) : Tot (selector (squash p) (Steel.Memory.pure p)) = vpure_sel' p [@@ __steel_reduce__] let vpure' (p: prop) : GTot vprop' = { hp = Steel.Memory.pure p; t = squash p; sel = vpure_sel p; } [@@ __steel_reduce__] let vpure (p: prop) : Tot vprop = VUnit (vpure' p) let intro_vpure (#opened: _) (p: prop) : SteelGhost unit opened emp (fun _ -> vpure p) (fun _ -> p) (fun _ _ h' -> p) = change_slprop_rel emp (vpure p) (fun _ _ -> p) (fun m -> pure_interp p m) let elim_vpure (#opened: _) (p: prop) : SteelGhost unit opened (vpure p) (fun _ -> emp) (fun _ -> True) (fun _ _ _ -> p) = change_slprop_rel (vpure p) emp (fun _ _ -> p) (fun m -> pure_interp p m; reveal_emp (); intro_emp m) val intro_vdep2 (#opened:inames) (v: vprop) (q: vprop) (x: t_of v) (p: (t_of v -> Tot vprop)) : SteelGhost unit opened (v `star` q) (fun _ -> vdep v p) (requires (fun h -> q == p x /\ x == h v )) (ensures (fun h _ h' -> let x2 = h' (vdep v p) in q == p (h v) /\ dfst x2 == (h v) /\ dsnd x2 == (h q) )) let intro_vdep2 v q x p = intro_vdep v q p let vbind0_payload (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) (x: t_of a) : Tot vprop = vpure (t == t_of (b x)) `star` b x let vbind0_rewrite (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) (x: normal (t_of (vdep a (vbind0_payload a t b)))) : Tot t = snd (dsnd x) [@@__steel_reduce__; __reduce__] let vbind0 (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : Tot vprop = a `vdep` vbind0_payload a t b `vrewrite` vbind0_rewrite a t b let vbind_hp // necessary to hide the attribute on hp_of (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : Tot (slprop u#1) = hp_of (vbind0 a t b) let vbind_sel // same for hp_sel (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : GTot (selector t (vbind_hp a t b)) = sel_of (vbind0 a t b) [@@__steel_reduce__] let vbind' (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : GTot vprop' = { hp = vbind_hp a t b; t = t; sel = vbind_sel a t b; } [@@__steel_reduce__] let vbind (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : Tot vprop = VUnit (vbind' a t b) let intro_vbind (#opened: _) (a: vprop) (b' : vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : SteelGhost unit opened (a `star` b') (fun _ -> vbind a t b) (fun h -> t_of b' == t /\ b' == b (h a)) (fun h _ h' -> t_of b' == t /\ b' == b (h a) /\ h' (vbind a t b) == h b' ) = intro_vpure (t == t_of b'); intro_vdep a (vpure (t == t_of b') `star` b') (vbind0_payload a t b); intro_vrewrite (a `vdep` vbind0_payload a t b) (vbind0_rewrite a t b); change_slprop_rel (vbind0 a t b) (vbind a t b) (fun x y -> x == y) (fun _ -> ()) let elim_vbind (#opened: _) (a: vprop) (t: Type0) (b: (t_of a -> Tot vprop)) : SteelGhost (Ghost.erased (t_of a)) opened (vbind a t b) (fun res -> a `star` b (Ghost.reveal res)) (fun h -> True) (fun h res h' -> h' a == Ghost.reveal res /\ t == t_of (b (Ghost.reveal res)) /\ h' (b (Ghost.reveal res)) == h (vbind a t b) ) = change_slprop_rel (vbind a t b) (vbind0 a t b) (fun x y -> x == y) (fun _ -> ()); elim_vrewrite (a `vdep` vbind0_payload a t b) (vbind0_rewrite a t b); let res = elim_vdep a (vbind0_payload a t b) in change_equal_slprop (vbind0_payload a t b (Ghost.reveal res)) (vpure (t == t_of (b (Ghost.reveal res))) `star` b (Ghost.reveal res)); elim_vpure (t == t_of (b (Ghost.reveal res))); res let (==) (#a:_) (x y: a) : prop = x == y let snoc_inj (#a: Type) (hd1 hd2: list a) (tl1 tl2: a) : Lemma (requires (hd1 `L.append` [tl1] == hd2 `L.append` [tl2])) (ensures (hd1 == hd2 /\ tl1 == tl2)) [SMTPat (hd1 `L.append` [tl1]); SMTPat (hd2 `L.append` [tl2])] = L.lemma_snoc_unsnoc (hd1, tl1); L.lemma_snoc_unsnoc (hd2, tl2) [@"opaque_to_smt"] let unsnoc (#a: Type) (l: list a) : Pure (list a & a) (requires (Cons? l)) (ensures (fun (hd, tl) -> l == hd `L.append` [tl] /\ L.length hd < L.length l)) = L.lemma_unsnoc_snoc l; L.append_length (fst (L.unsnoc l)) [snd (L.unsnoc l)]; L.unsnoc l let unsnoc_hd (#a: Type) (l: list a) : Pure (list a) (requires (Cons? l)) (ensures (fun l' -> L.length l' < L.length l)) = fst (unsnoc l) let unsnoc_tl (#a: Type) (l: list a) : Pure (a) (requires (Cons? l)) (ensures (fun _ -> True)) = snd (unsnoc l) [@@"opaque_to_smt"] let snoc (#a: Type) (l: list a) (x: a) : Pure (list a) (requires True) (ensures (fun l' -> Cons? l' /\ unsnoc_hd l' == l /\ unsnoc_tl l' == x )) = let l' = L.snoc (l, x) in L.append_length l [x]; snoc_inj l (unsnoc_hd l') x (unsnoc_tl l'); l' let snoc_unsnoc (#a: Type) (l: list a) : Lemma (requires (Cons? l)) (ensures (snoc (unsnoc_hd l) (unsnoc_tl l) == l)) = () unfold let coerce (#a: Type) (x: a) (b: Type) : Pure b (requires (a == b)) (ensures (fun y -> a == b /\ x == y)) = x ( END library ) let t a = cllist_lvalue a let v (a: Type0) = list a let datas (#a: Type0) (l: v a) : Tot (list a) = l ( view from the tail ) let llist_fragment_tail_cons_data_refine (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (d: a) : Tot prop = d == unsnoc_tl (Ghost.reveal l) [@@ __steel_reduce__] let llist_fragment_tail_cons_lvalue_payload (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (c: ccell_lvalue a) : Tot vprop = vptr (ccell_data c) `vrefine` llist_fragment_tail_cons_data_refine l let ccell_is_lvalue_refine (a: Type) (c: ccell_ptrvalue a) : Tot prop = ccell_ptrvalue_is_null c == false [@@ __steel_reduce__ ] let llist_fragment_tail_cons_next_payload (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (ptail: ref (ccell_ptrvalue a)) : Tot vprop = vptr ptail `vrefine` ccell_is_lvalue_refine a `vdep` llist_fragment_tail_cons_lvalue_payload l [@@ __steel_reduce__ ] let llist_fragment_tail_cons_rewrite (#a: Type) (l: Ghost.erased (list a) { Cons? (Ghost.reveal l) }) (llist_fragment_tail: vprop { t_of llist_fragment_tail == ref (ccell_ptrvalue a) }) (x: normal (t_of (llist_fragment_tail `vdep` (llist_fragment_tail_cons_next_payload l)))) : Tot (ref (ccell_ptrvalue a)) = let (\| _, (\| c, _ \|) \|) = x in ccell_next c let rec llist_fragment_tail (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : Pure vprop (requires True) (ensures (fun v -> t_of v == ref (ccell_ptrvalue a))) (decreases (Ghost.reveal (L.length l))) = if Nil? l then vconst phead else llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) let llist_fragment_tail_eq (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : Lemma (llist_fragment_tail l phead == ( if Nil? l then vconst phead else llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) )) = assert_norm (llist_fragment_tail l phead == ( if Nil? l then vconst phead else llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) )) let llist_fragment_tail_eq_cons (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : Lemma (requires (Cons? l)) (ensures (Cons? l /\ llist_fragment_tail l phead == ( llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead `vdep` llist_fragment_tail_cons_next_payload l `vrewrite` llist_fragment_tail_cons_rewrite l (llist_fragment_tail (Ghost.hide (unsnoc_hd (Ghost.reveal l))) phead) ))) = llist_fragment_tail_eq l phead unfold let sel_llist_fragment_tail (#a:Type) (#p:vprop) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (h: rmem p { FStar.Tactics.with_tactic selector_tactic (can_be_split p (llist_fragment_tail l phead) /\ True) }) : GTot (ref (ccell_ptrvalue a)) = coerce (h (llist_fragment_tail l phead)) (ref (ccell_ptrvalue a)) val intro_llist_fragment_tail_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : SteelGhost unit opened emp (fun _ -> llist_fragment_tail l phead) (fun _ -> Nil? l) (fun _ _ h' -> sel_llist_fragment_tail l phead h' == phead) let intro_llist_fragment_tail_nil l phead = intro_vconst phead; change_equal_slprop (vconst phead) (llist_fragment_tail l phead) val elim_llist_fragment_tail_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : SteelGhost unit opened (llist_fragment_tail l phead) (fun _ -> emp) (fun _ -> Nil? l) (fun h _ _ -> sel_llist_fragment_tail l phead h == phead) let elim_llist_fragment_tail_nil l phead = change_equal_slprop (llist_fragment_tail l phead) (vconst phead); elim_vconst phead val intro_llist_fragment_tail_snoc (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (ptail: Ghost.erased (ref (ccell_ptrvalue a))) (tail: Ghost.erased (ccell_lvalue a)) : SteelGhost (Ghost.erased (list a)) opened (llist_fragment_tail l phead `star` vptr ptail `star` vptr (ccell_data tail)) (fun res -> llist_fragment_tail res phead) (fun h -> sel_llist_fragment_tail l phead h == Ghost.reveal ptail /\ sel ptail h == Ghost.reveal tail ) (fun h res h' -> Ghost.reveal res == snoc (Ghost.reveal l) (sel (ccell_data tail) h) /\ sel_llist_fragment_tail res phead h' == ccell_next tail ) #push-options "--z3rlimit 16" let intro_llist_fragment_tail_snoc #_ #a l phead ptail tail = let d = gget (vptr (ccell_data tail)) in let l' : (l' : Ghost.erased (list a) { Cons? (Ghost.reveal l') }) = Ghost.hide (snoc (Ghost.reveal l) (Ghost.reveal d)) in intro_vrefine (vptr (ccell_data tail)) (llist_fragment_tail_cons_data_refine l'); intro_vrefine (vptr ptail) (ccell_is_lvalue_refine a); intro_vdep (vptr ptail `vrefine` ccell_is_lvalue_refine a) (vptr (ccell_data tail) `vrefine` llist_fragment_tail_cons_data_refine l') (llist_fragment_tail_cons_lvalue_payload l'); change_equal_slprop (llist_fragment_tail l phead) (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead); intro_vdep (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead) (vptr ptail `vrefine` ccell_is_lvalue_refine a `vdep` llist_fragment_tail_cons_lvalue_payload l') (llist_fragment_tail_cons_next_payload l'); intro_vrewrite_no_norm (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead `vdep` llist_fragment_tail_cons_next_payload l') (llist_fragment_tail_cons_rewrite l' (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead)); llist_fragment_tail_eq_cons l' phead; change_equal_slprop (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead `vdep` llist_fragment_tail_cons_next_payload l' `vrewrite` llist_fragment_tail_cons_rewrite l' (llist_fragment_tail (Ghost.hide (unsnoc_hd l')) phead)) (llist_fragment_tail l' phead); let g' = gget (llist_fragment_tail l' phead) in assert (Ghost.reveal g' == ccell_next tail); noop (); l' #pop-options [@@erasable] noeq type ll_unsnoc_t (a: Type) = { ll_unsnoc_l: list a; ll_unsnoc_ptail: ref (ccell_ptrvalue a); ll_unsnoc_tail: ccell_lvalue a; } val elim_llist_fragment_tail_snoc (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) : SteelGhost (ll_unsnoc_t a) opened (llist_fragment_tail l phead) (fun res -> llist_fragment_tail res.ll_unsnoc_l phead `star` vptr res.ll_unsnoc_ptail `star` vptr (ccell_data res.ll_unsnoc_tail)) (fun _ -> Cons? l) (fun h res h' -> Cons? l /\ Ghost.reveal res.ll_unsnoc_l == unsnoc_hd l /\ sel res.ll_unsnoc_ptail h' == res.ll_unsnoc_tail /\ sel (ccell_data res.ll_unsnoc_tail) h'== unsnoc_tl l /\ sel_llist_fragment_tail res.ll_unsnoc_l phead h' == res.ll_unsnoc_ptail /\ sel_llist_fragment_tail l phead h == (ccell_next res.ll_unsnoc_tail) ) #push-options "--z3rlimit 32" #restart-solver let elim_llist_fragment_tail_snoc #_ #a l phead = let l0 : (l0: Ghost.erased (list a) { Cons? l0 }) = Ghost.hide (Ghost.reveal l) in llist_fragment_tail_eq_cons l0 phead; change_equal_slprop (llist_fragment_tail l phead) (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead `vdep` llist_fragment_tail_cons_next_payload l0 `vrewrite` llist_fragment_tail_cons_rewrite l0 (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead)); elim_vrewrite_no_norm (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead `vdep` llist_fragment_tail_cons_next_payload l0) (llist_fragment_tail_cons_rewrite l0 (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead)); let ptail = elim_vdep (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead) (llist_fragment_tail_cons_next_payload l0) in let ptail0 : Ghost.erased (ref (ccell_ptrvalue a)) = ptail in change_equal_slprop (llist_fragment_tail_cons_next_payload l0 (Ghost.reveal ptail)) (vptr (Ghost.reveal ptail0) `vrefine` ccell_is_lvalue_refine a `vdep` llist_fragment_tail_cons_lvalue_payload l0); let tail = elim_vdep (vptr (Ghost.reveal ptail0) `vrefine` ccell_is_lvalue_refine a) (llist_fragment_tail_cons_lvalue_payload l0) in elim_vrefine (vptr (Ghost.reveal ptail0)) (ccell_is_lvalue_refine a); let res = { ll_unsnoc_l = unsnoc_hd l0; ll_unsnoc_ptail = Ghost.reveal ptail0; ll_unsnoc_tail = Ghost.reveal tail; } in change_equal_slprop (vptr (Ghost.reveal ptail0)) (vptr res.ll_unsnoc_ptail); change_equal_slprop (llist_fragment_tail_cons_lvalue_payload l0 (Ghost.reveal tail)) (vptr (ccell_data res.ll_unsnoc_tail) `vrefine` llist_fragment_tail_cons_data_refine l0); elim_vrefine (vptr (ccell_data res.ll_unsnoc_tail)) (llist_fragment_tail_cons_data_refine l0); change_equal_slprop (llist_fragment_tail (Ghost.hide (unsnoc_hd l0)) phead) (llist_fragment_tail res.ll_unsnoc_l phead); res #pop-options let rec llist_fragment_tail_append (#opened: _) (#a: Type) (phead0: ref (ccell_ptrvalue a)) (l1: Ghost.erased (list a)) (phead1: Ghost.erased (ref (ccell_ptrvalue a))) (l2: Ghost.erased (list a)) : SteelGhost (Ghost.erased (list a)) opened (llist_fragment_tail l1 phead0 `star` llist_fragment_tail l2 phead1) (fun res -> llist_fragment_tail res phead0) (fun h -> Ghost.reveal phead1 == (sel_llist_fragment_tail l1 phead0) h ) (fun h res h' -> Ghost.reveal res == Ghost.reveal l1 `L.append` Ghost.reveal l2 /\ (sel_llist_fragment_tail res phead0) h' == (sel_llist_fragment_tail l2 phead1) h ) (decreases (L.length (Ghost.reveal l2))) = let g1 = gget (llist_fragment_tail l1 phead0) in assert (Ghost.reveal phead1 == Ghost.reveal g1); if Nil? l2 then begin L.append_l_nil (Ghost.reveal l1); elim_llist_fragment_tail_nil l2 phead1; l1 end else begin let res = elim_llist_fragment_tail_snoc l2 (Ghost.reveal phead1) in let d = gget (vptr (ccell_data res.ll_unsnoc_tail)) in L.append_assoc (Ghost.reveal l1) (Ghost.reveal res.ll_unsnoc_l) [Ghost.reveal d]; let l3 = llist_fragment_tail_append phead0 l1 phead1 res.ll_unsnoc_l in intro_llist_fragment_tail_snoc l3 phead0 res.ll_unsnoc_ptail res.ll_unsnoc_tail end let queue_tail_refine (#a: Type) (tail1: ref (ccell_ptrvalue a)) (tail2: ref (ccell_ptrvalue a)) (tl: normal (t_of (vptr tail2))) : Tot prop = ccell_ptrvalue_is_null tl == true /\ tail1 == tail2 [@@__steel_reduce__] let queue_tail_dep2 (#a: Type) (x: t a) (l: Ghost.erased (list a)) (tail1: t_of (llist_fragment_tail l (cllist_head x))) (tail2: ref (ccell_ptrvalue a)) : Tot vprop = vptr tail2 `vrefine` queue_tail_refine tail1 tail2 [@@__steel_reduce__] let queue_tail_dep1 (#a: Type) (x: t a) (l: Ghost.erased (list a)) (tail1: t_of (llist_fragment_tail l (cllist_head x))) : Tot vprop = vptr (cllist_tail x) `vdep` queue_tail_dep2 x l tail1 [@@__steel_reduce__; __reduce__] let queue_tail (#a: Type) (x: t a) (l: Ghost.erased (list a)) : Tot vprop = llist_fragment_tail l (cllist_head x) `vdep` queue_tail_dep1 x l val intro_queue_tail (#opened: _) (#a: Type) (x: t a) (l: Ghost.erased (list a)) (tail: ref (ccell_ptrvalue a)) : SteelGhost unit opened (llist_fragment_tail l (cllist_head x) `star` vptr (cllist_tail x) `star` vptr tail) (fun _ -> queue_tail x l) (fun h -> sel_llist_fragment_tail l (cllist_head x) h == tail /\ sel (cllist_tail x) h == tail /\ ccell_ptrvalue_is_null (sel tail h) ) (fun _ _ _ -> True) let intro_queue_tail x l tail = intro_vrefine (vptr tail) (queue_tail_refine tail tail); intro_vdep2 (vptr (cllist_tail x)) (vptr tail `vrefine` queue_tail_refine tail tail) tail (queue_tail_dep2 x l tail); intro_vdep2 (llist_fragment_tail l (cllist_head x)) (vptr (cllist_tail x) `vdep` queue_tail_dep2 x l tail) tail (queue_tail_dep1 x l) val elim_queue_tail (#opened: _) (#a: Type) (x: t a) (l: Ghost.erased (list a)) : SteelGhost (Ghost.erased (ref (ccell_ptrvalue a))) opened (queue_tail x l) (fun tail -> llist_fragment_tail l (cllist_head x) `star` vptr (cllist_tail x) `star` vptr tail) (fun h -> True) (fun _ tail h -> sel_llist_fragment_tail l (cllist_head x) h == Ghost.reveal tail /\ sel (cllist_tail x) h == Ghost.reveal tail /\ ccell_ptrvalue_is_null (h (vptr tail)) ) let elim_queue_tail #_ #a x l = let tail0 = elim_vdep (llist_fragment_tail l (cllist_head x)) (queue_tail_dep1 x l) in let tail : Ghost.erased (ref (ccell_ptrvalue a)) = tail0 in change_equal_slprop (queue_tail_dep1 x l (Ghost.reveal tail0)) (vptr (cllist_tail x) `vdep` queue_tail_dep2 x l tail0); let tail2 = elim_vdep (vptr (cllist_tail x)) (queue_tail_dep2 x l tail0) in let tail3 : Ghost.erased (ref (ccell_ptrvalue a)) = tail2 in change_equal_slprop (queue_tail_dep2 x l tail0 (Ghost.reveal tail2)) (vptr tail3 `vrefine` queue_tail_refine tail0 tail3); elim_vrefine (vptr tail3) (queue_tail_refine tail0 tail3); change_equal_slprop (vptr tail3) (vptr tail); tail ( view from the head *) let llist_fragment_head_data_refine (#a: Type) (d: a) (c: vcell a) : Tot prop = c.vcell_data == d let llist_fragment_head_payload (#a: Type) (head: ccell_ptrvalue a) (d: a) (llist_fragment_head: (ref (ccell_ptrvalue a) -> ccell_ptrvalue a -> Tot vprop)) (x: t_of (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine d))) : Tot vprop = llist_fragment_head (ccell_next (fst x)) (snd x).vcell_next let rec llist_fragment_head (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : Tot vprop (decreases (Ghost.reveal l)) = if Nil? l then vconst (phead, head) else vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd (Ghost.reveal l)))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd (Ghost.reveal l)) (llist_fragment_head (L.tl (Ghost.reveal l)))) let t_of_llist_fragment_head (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : Lemma (t_of (llist_fragment_head l phead head) == ref (ccell_ptrvalue a) & ccell_ptrvalue a) = () unfold let sel_llist_fragment_head (#a:Type) (#p:vprop) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) (h: rmem p { FStar.Tactics.with_tactic selector_tactic (can_be_split p (llist_fragment_head l phead head) /\ True) }) : GTot (ref (ccell_ptrvalue a) & ccell_ptrvalue a) = coerce (h (llist_fragment_head l phead head)) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) val intro_llist_fragment_head_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost unit opened emp (fun _ -> llist_fragment_head l phead head) (fun _ -> Nil? l) (fun _ _ h' -> sel_llist_fragment_head l phead head h' == (phead, head)) let intro_llist_fragment_head_nil l phead head = intro_vconst (phead, head); change_equal_slprop (vconst (phead, head)) (llist_fragment_head l phead head) val elim_llist_fragment_head_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost unit opened (llist_fragment_head l phead head) (fun _ -> emp) (fun _ -> Nil? l) (fun h _ _ -> sel_llist_fragment_head l phead head h == (phead, head)) let elim_llist_fragment_head_nil l phead head = change_equal_slprop (llist_fragment_head l phead head) (vconst (phead, head)); elim_vconst (phead, head) let llist_fragment_head_eq_cons (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : Lemma (requires (Cons? (Ghost.reveal l))) (ensures ( llist_fragment_head l phead head == vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd (Ghost.reveal l)))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd (Ghost.reveal l)) (llist_fragment_head (L.tl (Ghost.reveal l)))) )) = assert_norm (llist_fragment_head l phead head == ( if Nil? l then vconst (phead, head) else vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd (Ghost.reveal l)))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd (Ghost.reveal l)) (llist_fragment_head (L.tl (Ghost.reveal l)))) )) val intro_llist_fragment_head_cons (#opened: _) (#a: Type) (phead: ref (ccell_ptrvalue a)) (head: ccell_lvalue a) (next: (ccell_ptrvalue a)) (tl: Ghost.erased (list a)) : SteelGhost (Ghost.erased (list a)) opened (ccell head `star` llist_fragment_head tl (ccell_next head) next) (fun res -> llist_fragment_head res phead head) (fun h -> (h (ccell head)).vcell_next == next) (fun h res h' -> Ghost.reveal res == (h (ccell head)).vcell_data :: Ghost.reveal tl /\ h' (llist_fragment_head res phead head) == h (llist_fragment_head tl (ccell_next head) next) ) let intro_llist_fragment_head_cons #_ #a phead head next tl = let vc = gget (ccell head) in let l' : (l' : Ghost.erased (list a) { Cons? l' }) = Ghost.hide (vc.vcell_data :: tl) in intro_ccell_is_lvalue head; intro_vrefine (ccell head) (llist_fragment_head_data_refine (L.hd l')); intro_vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd l'))) (llist_fragment_head tl (ccell_next head) next) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l') (llist_fragment_head (L.tl l'))); llist_fragment_head_eq_cons l' phead head; change_equal_slprop (vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd l'))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l') (llist_fragment_head (L.tl l')))) (llist_fragment_head l' phead head); l' [@@erasable] noeq type ll_uncons_t (a: Type) = { ll_uncons_pnext: Ghost.erased (ref (ccell_ptrvalue a)); ll_uncons_next: Ghost.erased (ccell_ptrvalue a); ll_uncons_tl: Ghost.erased (list a); } val elim_llist_fragment_head_cons (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost (ll_uncons_t a) opened (llist_fragment_head l phead head) (fun res -> ccell head `star` llist_fragment_head res.ll_uncons_tl res.ll_uncons_pnext res.ll_uncons_next) (fun _ -> Cons? (Ghost.reveal l)) (fun h res h' -> ccell_ptrvalue_is_null head == false /\ Ghost.reveal l == (h' (ccell head)).vcell_data :: Ghost.reveal res.ll_uncons_tl /\ Ghost.reveal res.ll_uncons_pnext == ccell_next head /\ Ghost.reveal res.ll_uncons_next == (h' (ccell head)).vcell_next /\ h' (llist_fragment_head res.ll_uncons_tl res.ll_uncons_pnext res.ll_uncons_next) == h (llist_fragment_head l phead head) ) let elim_llist_fragment_head_cons #_ #a l0 phead head = let l : (l : Ghost.erased (list a) { Cons? l }) = l0 in change_equal_slprop (llist_fragment_head l0 phead head) (llist_fragment_head l phead head); llist_fragment_head_eq_cons l phead head; change_equal_slprop (llist_fragment_head l phead head) (vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd l))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l) (llist_fragment_head (L.tl l)))); let x = elim_vbind (ccell_is_lvalue head `star` (ccell head `vrefine` llist_fragment_head_data_refine (L.hd l))) (ref (ccell_ptrvalue a) & ccell_ptrvalue a) (llist_fragment_head_payload head (L.hd l) (llist_fragment_head (L.tl l))) in let head2 = gget (ccell_is_lvalue head) in elim_ccell_is_lvalue head; elim_vrefine (ccell head) (llist_fragment_head_data_refine (L.hd l)); let vhead2 = gget (ccell head) in let res = { ll_uncons_pnext = ccell_next head2; ll_uncons_next = vhead2.vcell_next; ll_uncons_tl = L.tl l; } in change_equal_slprop (llist_fragment_head_payload head (L.hd l) (llist_fragment_head (L.tl l)) (Ghost.reveal x)) (llist_fragment_head res.ll_uncons_tl res.ll_uncons_pnext res.ll_uncons_next); res let rec llist_fragment_head_append (#opened: _) (#a: Type) (l1: Ghost.erased (list a)) (phead1: ref (ccell_ptrvalue a)) (head1: ccell_ptrvalue a) (l2: Ghost.erased (list a)) (phead2: ref (ccell_ptrvalue a)) (head2: ccell_ptrvalue a) : SteelGhost (Ghost.erased (list a)) opened (llist_fragment_head l1 phead1 head1 `star` llist_fragment_head l2 phead2 head2) (fun l -> llist_fragment_head l phead1 head1) (fun h -> sel_llist_fragment_head l1 phead1 head1 h == (Ghost.reveal phead2, Ghost.reveal head2)) (fun h l h' -> Ghost.reveal l == Ghost.reveal l1 `L.append` Ghost.reveal l2 /\ h' (llist_fragment_head l phead1 head1) == h (llist_fragment_head l2 phead2 head2) ) (decreases (Ghost.reveal l1)) = if Nil? l1 then begin elim_llist_fragment_head_nil l1 phead1 head1; change_equal_slprop (llist_fragment_head l2 phead2 head2) (llist_fragment_head l2 phead1 head1); l2 end else begin let u = elim_llist_fragment_head_cons l1 phead1 head1 in let head1' : Ghost.erased (ccell_lvalue a) = head1 in let l3 = llist_fragment_head_append u.ll_uncons_tl u.ll_uncons_pnext u.ll_uncons_next l2 phead2 head2 in change_equal_slprop (llist_fragment_head l3 u.ll_uncons_pnext u.ll_uncons_next) (llist_fragment_head l3 (ccell_next head1') u.ll_uncons_next); change_equal_slprop (ccell head1) (ccell head1'); let l4 = intro_llist_fragment_head_cons phead1 head1' u.ll_uncons_next l3 in change_equal_slprop (llist_fragment_head l4 phead1 head1') (llist_fragment_head l4 phead1 head1); l4 end let rec llist_fragment_head_to_tail (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost (Ghost.erased (ref (ccell_ptrvalue a))) opened (vptr phead `star` llist_fragment_head l phead head) (fun res -> llist_fragment_tail l phead `star` vptr res) (fun h -> h (vptr phead) == head) (fun h res h' -> let v = sel_llist_fragment_head l phead head h in fst v == Ghost.reveal res /\ fst v == sel_llist_fragment_tail l phead h' /\ snd v == h' (vptr res) ) (decreases (L.length (Ghost.reveal l))) = if Nil? l then begin let ptail = Ghost.hide phead in let gh = gget (vptr phead) in assert (Ghost.reveal gh == head); elim_llist_fragment_head_nil l phead head; intro_llist_fragment_tail_nil l phead; change_equal_slprop (vptr phead) (vptr ptail); ptail end else begin intro_llist_fragment_tail_nil [] phead; change_equal_slprop (vptr phead) (vptr (Ghost.reveal (Ghost.hide phead))); let uc = elim_llist_fragment_head_cons l phead head in let head' = elim_ccell_ghost head in change_equal_slprop (vptr (ccell_next head')) (vptr uc.ll_uncons_pnext); let lc = intro_llist_fragment_tail_snoc [] phead phead head' in let ptail = llist_fragment_head_to_tail uc.ll_uncons_tl uc.ll_uncons_pnext uc.ll_uncons_next in let l' = llist_fragment_tail_append phead lc uc.ll_uncons_pnext uc.ll_uncons_tl in change_equal_slprop (llist_fragment_tail l' phead) (llist_fragment_tail l phead); ptail end #push-options "--z3rlimit 16" #restart-solver let rec llist_fragment_tail_to_head (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (ptail: ref (ccell_ptrvalue a)) : SteelGhost (Ghost.erased (ccell_ptrvalue a)) opened (llist_fragment_tail l phead `star` vptr ptail) (fun head -> vptr phead `star` llist_fragment_head l phead (Ghost.reveal head)) (fun h -> Ghost.reveal ptail == sel_llist_fragment_tail l phead h) (fun h head h' -> let v = sel_llist_fragment_head l phead head h' in fst v == ptail /\ snd v == h (vptr ptail) /\ h' (vptr phead) == Ghost.reveal head ) (decreases (L.length (Ghost.reveal l))) = if Nil? l then begin let g = gget (llist_fragment_tail l phead) in assert (Ghost.reveal g == ptail); elim_llist_fragment_tail_nil l phead; change_equal_slprop (vptr ptail) (vptr phead); let head = gget (vptr phead) in intro_llist_fragment_head_nil l phead head; head end else begin let us = elim_llist_fragment_tail_snoc l phead in let tail = gget (vptr ptail) in assert (ccell_next us.ll_unsnoc_tail == ptail); intro_llist_fragment_head_nil [] (ccell_next us.ll_unsnoc_tail) tail; change_equal_slprop (vptr ptail) (vptr (ccell_next us.ll_unsnoc_tail)); intro_ccell us.ll_unsnoc_tail; let lc = intro_llist_fragment_head_cons us.ll_unsnoc_ptail us.ll_unsnoc_tail tail [] in let head = llist_fragment_tail_to_head us.ll_unsnoc_l phead us.ll_unsnoc_ptail in let g = gget (llist_fragment_head us.ll_unsnoc_l phead head) in let g : Ghost.erased (ref (ccell_ptrvalue a) & ccell_ptrvalue a) = Ghost.hide (Ghost.reveal g) in assert (Ghost.reveal g == (Ghost.reveal us.ll_unsnoc_ptail, Ghost.reveal us.ll_unsnoc_tail)); let l' = llist_fragment_head_append us.ll_unsnoc_l phead head lc us.ll_unsnoc_ptail us.ll_unsnoc_tail in change_equal_slprop (llist_fragment_head l' phead head) (llist_fragment_head l phead head); head end #pop-options val llist_fragment_head_is_nil (#opened: _) (#a: Type) (l: Ghost.erased (list a)) (phead: ref (ccell_ptrvalue a)) (head: ccell_ptrvalue a) : SteelGhost unit opened (llist_fragment_head l phead head) (fun _ -> llist_fragment_head l phead head) (fun h -> ccell_ptrvalue_is_null (snd (sel_llist_fragment_head l phead head h)) == true) (fun h _ h' -> Nil? l == ccell_ptrvalue_is_null head /\ h' (llist_fragment_head l phead head) == h (llist_fragment_head l phead head) )	{ "checked_file": "/", "dependencies": [ "Steel.Memory.fsti.checked", "prims.fst.checked", "FStar.Tactics.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked", "CQueue.LList.fsti.checked" ], "interface_file": true, "source_file": "CQueue.fst" }	[ { "abbrev": false, "full_module": "CQueue.LList", "short_module": null }, { "abbrev": true, "full_module": "FStar.List.Tot", "short_module": "L" }, { "abbrev": false, "full_module": "Steel.Reference", "short_module": null }, { "abbrev": false, "full_module": "Steel.FractionalPermission", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect.Atomic", "short_module": null }, { "abbrev": false, "full_module": "Steel.Memory", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	l: FStar.Ghost.erased (Prims.list a) -> phead: Steel.Reference.ref (CQueue.Cell.ccell_ptrvalue a) -> head: CQueue.Cell.ccell_ptrvalue a -> Steel.Effect.Atomic.SteelGhost Prims.unit	Steel.Effect.Atomic.SteelGhost	[]	[]	[ "Steel.Memory.inames", "FStar.Ghost.erased", "Prims.list", "Steel.Reference.ref", "CQueue.Cell.ccell_ptrvalue", "Prims.uu___is_Nil", "FStar.Ghost.reveal", "CQueue.intro_llist_fragment_head_nil", "Prims.unit", "Prims._assert", "CQueue.op_Equals_Equals", "Prims.bool", "CQueue.Cell.ccell_ptrvalue_is_null", "CQueue.elim_llist_fragment_head_nil", "Steel.Effect.Atomic.change_equal_slprop", "CQueue.llist_fragment_head", "CQueue.intro_llist_fragment_head_cons", "CQueue.__proj__Mkll_uncons_t__item__ll_uncons_next", "CQueue.__proj__Mkll_uncons_t__item__ll_uncons_tl", "CQueue.Cell.ccell", "CQueue.__proj__Mkll_uncons_t__item__ll_uncons_pnext", "CQueue.Cell.ccell_next", "CQueue.Cell.ccell_lvalue", "CQueue.ll_uncons_t", "CQueue.elim_llist_fragment_head_cons" ]	[]	false	true	false	false	false	let llist_fragment_head_is_nil l phead head =	if Nil? l then (elim_llist_fragment_head_nil l phead head; assert (ccell_ptrvalue_is_null head == true); intro_llist_fragment_head_nil l phead head) else let r = elim_llist_fragment_head_cons l phead head in let head2:ccell_lvalue _ = head in change_equal_slprop (llist_fragment_head r.ll_uncons_tl r.ll_uncons_pnext r.ll_uncons_next) (llist_fragment_head r.ll_uncons_tl (ccell_next head2) r.ll_uncons_next); change_equal_slprop (ccell head) (ccell head2); let l' = intro_llist_fragment_head_cons phead head2 r.ll_uncons_next r.ll_uncons_tl in change_equal_slprop (llist_fragment_head l' phead head2) (llist_fragment_head l phead head)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vmrghw	val va_wpProof_Vmrghw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vmrghw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vmrghw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vmrghw : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vmrghw dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vmrghw dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 417, "start_col": 0, "start_line": 411 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vmrghw", "Vale.PPC64LE.InsVector.va_code_Vmrghw" ]	[]	false	false	false	false	false	let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.poly1305_update_vec	val poly1305_update_vec: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == Vec.poly1305_update_vec #(width s) (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0])	val poly1305_update_vec: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == Vec.poly1305_update_vec #(width s) (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0])	let poly1305_update_vec #s len text pre acc = let sz_block = blocklen s in FStar.Math.Lemmas.multiply_fractions (v len) (v sz_block); let len0 = (len /. sz_block) *! sz_block in let t0 = sub text 0ul len0 in FStar.Math.Lemmas.multiple_modulo_lemma (v (len /. sz_block)) (v (blocklen s)); if len0 >. 0ul then poly1305_update_multi len0 t0 pre acc; let len1 = len -! len0 in let t1 = sub text len0 len1 in poly1305_update_scalar #s len1 t1 pre acc	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 43, "end_line": 557, "start_col": 0, "start_line": 547 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len ! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi [@ Meta.Attribute.specialize ] let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr inline_for_extraction noextract val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0]) let update1 #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame () let poly1305_update1 #s ctx text = let pre = get_precomp_r ctx in let acc = get_acc ctx in update1 pre text acc inline_for_extraction noextract val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0]) #push-options "--z3rlimit 200" let poly1305_update_last #s pre len b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_last e len b; fadd_mul_r acc e pre; pop_frame () #pop-options inline_for_extraction noextract val poly1305_update_nblocks: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 (blocklen s) -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint acc p /\ disjoint acc b /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ feval h1 acc == Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul)) (as_seq h0 b) (feval h0 acc)) let poly1305_update_nblocks #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_blocks e b; fmul_rn acc acc pre; fadd acc acc e; pop_frame () inline_for_extraction noextract val poly1305_update1_f: #s:field_spec -> p:precomp_r s -> nb:size_t -> len:size_t{v nb == v len / 16} -> text:lbuffer uint8 len -> i:size_t{v i < v nb} -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h text /\ live h acc /\ disjoint acc p /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == LSeq.repeat_blocks_f #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16) (v nb) (v i) (feval h0 acc).[0]) let poly1305_update1_f #s pre nb len text i acc= assert ((v i + 1) 16 <= v nb * 16); let block = sub #_ #_ #len text (i ! 16ul) 16ul in update1 #s pre block acc #push-options "--z3rlimit 100 --max_fuel 1" inline_for_extraction noextract val poly1305_update_scalar: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0]) let poly1305_update_scalar #s len text pre acc = let nb = len /. 16ul in let rem = len %. 16ul in let h0 = ST.get () in LSeq.lemma_repeat_blocks #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (S.poly1305_update_last (feval h0 (gsub pre 0ul 5ul)).[0]) (feval h0 acc).[0]; [@ inline_let] let spec_fh h0 = LSeq.repeat_blocks_f 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (v nb) in [@ inline_let] let inv h (i:nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre /\ (feval h acc).[0] == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc).[0] in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc).[0] (v i); poly1305_update1_f #s pre nb len text i acc); let h1 = ST.get () in assert ((feval h1 acc).[0] == Lib.LoopCombinators.repeati (v nb) (spec_fh h0) (feval h0 acc).[0]); if rem >. 0ul then ( let last = sub text (nb ! 16ul) rem in as_seq_gsub h1 text (nb ! 16ul) rem; assert (disjoint acc last); poly1305_update_last #s pre rem last acc) #pop-options inline_for_extraction noextract val poly1305_update_multi_f: #s:field_spec -> p:precomp_r s -> bs:size_t{v bs == width s S.size_block} -> nb:size_t -> len:size_t{v nb == v len / v bs /\ v len % v bs == 0} -> text:lbuffer uint8 len -> i:size_t{v i < v nb} -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h text /\ live h acc /\ disjoint acc p /\ disjoint acc text /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 p /\ feval h1 acc == LSeq.repeat_blocks_f #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul))) (v nb) (v i) (feval h0 acc)) let poly1305_update_multi_f #s pre bs nb len text i acc= assert ((v i + 1) * v bs <= v nb * v bs); let block = sub #_ #_ #len text (i ! bs) bs in let h1 = ST.get () in as_seq_gsub h1 text (i ! bs) bs; poly1305_update_nblocks #s pre block acc #push-options "--max_fuel 1" inline_for_extraction noextract val poly1305_update_multi_loop: #s:field_spec -> bs:size_t{v bs == width s * S.size_block} -> len:size_t{v len % v (blocklen s) == 0} -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h pre /\ live h acc /\ live h text /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 pre /\ feval h1 acc == LSeq.repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc)) let poly1305_update_multi_loop #s bs len text pre acc = let nb = len /. bs in let h0 = ST.get () in LSeq.lemma_repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc); [@ inline_let] let spec_fh h0 = LSeq.repeat_blocks_f (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (v nb) in [@ inline_let] let inv h (i:nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre /\ feval h acc == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc) in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc) (v i); poly1305_update_multi_f #s pre bs nb len text i acc) #pop-options #push-options "--z3rlimit 350" inline_for_extraction noextract val poly1305_update_multi: #s:field_spec -> len:size_t{0 < v len /\ v len % v (blocklen s) == 0} -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h pre /\ live h acc /\ live h text /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == Vec.poly1305_update_multi #(width s) (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0]) let poly1305_update_multi #s len text pre acc = let h0 = ST.get () in assert_norm (v 10ul + v 5ul <= v 20ul); assert (feval h0 (gsub pre 10ul 5ul) == Vec.compute_rw #(width s) ((feval h0 (gsub pre 0ul 5ul)).[0])); let bs = blocklen s in //assert (v bs == width s * S.size_block); let text0 = sub text 0ul bs in load_acc #s acc text0; let len1 = len -! bs in let text1 = sub text bs len1 in poly1305_update_multi_loop #s bs len1 text1 pre acc; fmul_rn_normalize acc pre #pop-options inline_for_extraction noextract val poly1305_update_vec: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == Vec.poly1305_update_vec #(width s) (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0])	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Lib.IntTypes.size_t -> text: Lib.Buffer.lbuffer Lib.IntTypes.uint8 len -> pre: Hacl.Impl.Poly1305.Fields.precomp_r s -> acc: Hacl.Impl.Poly1305.Fields.felem s -> FStar.HyperStack.ST.Stack Prims.unit	FStar.HyperStack.ST.Stack	[]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Lib.IntTypes.size_t", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "Hacl.Impl.Poly1305.Fields.precomp_r", "Hacl.Impl.Poly1305.Fields.felem", "Hacl.Impl.Poly1305.poly1305_update_scalar", "Prims.unit", "Lib.Buffer.lbuffer_t", "Lib.Buffer.MUT", "Lib.IntTypes.int_t", "Lib.IntTypes.U8", "Lib.IntTypes.SEC", "Lib.Buffer.sub", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "Lib.IntTypes.op_Subtraction_Bang", "Lib.IntTypes.op_Greater_Dot", "FStar.UInt32.__uint_to_t", "Hacl.Impl.Poly1305.poly1305_update_multi", "Prims.bool", "FStar.Math.Lemmas.multiple_modulo_lemma", "Lib.IntTypes.v", "Lib.IntTypes.op_Slash_Dot", "Hacl.Impl.Poly1305.Fields.blocklen", "Lib.IntTypes.op_Star_Bang", "FStar.Math.Lemmas.multiply_fractions", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "Prims.eq2", "Prims.int", "Prims.op_Multiply", "Spec.Poly1305.size_block" ]	[]	false	true	false	false	false	let poly1305_update_vec #s len text pre acc =	let sz_block = blocklen s in FStar.Math.Lemmas.multiply_fractions (v len) (v sz_block); let len0 = (len /. sz_block) *! sz_block in let t0 = sub text 0ul len0 in FStar.Math.Lemmas.multiple_modulo_lemma (v (len /. sz_block)) (v (blocklen s)); if len0 >. 0ul then poly1305_update_multi len0 t0 pre acc; let len1 = len -! len0 in let t1 = sub text len0 len1 in poly1305_update_scalar #s len1 t1 pre acc	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Load128_word4_buffer	val va_codegen_success_Load128_word4_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Load128_word4_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 638, "start_col": 0, "start_line": 637 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Load128_word4_buffer h dst base t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vsl	val va_lemma_Vsl : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsl dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0 /\ (let sh = FStar.Seq.Base.index #nat8 (Vale.Def.Types_s.nat32_to_be_bytes (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2))) 3 `op_Modulus` 8 in let chk = fun (v:nat32) (sh:nat8) -> let bytes = Vale.Def.Types_s.nat32_to_be_bytes v in l_and (l_and (l_and (sh = FStar.Seq.Base.index #nat8 bytes 3 `op_Modulus` 8) (sh = FStar.Seq.Base.index #nat8 bytes 2 `op_Modulus` 8)) (sh = FStar.Seq.Base.index #nat8 bytes 1 `op_Modulus` 8)) (sh = FStar.Seq.Base.index #nat8 bytes 0 `op_Modulus` 8) in l_and (l_and (l_and (chk (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2)) sh) (chk (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) sh)) (chk (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) sh)) (chk (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) sh)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (let sh = FStar.Seq.Base.index #nat8 (Vale.Def.Types_s.nat32_to_be_bytes (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2))) 3 `op_Modulus` 8 in let l = Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Words_s.nat32 (fun (i:nat32) -> Vale.Arch.Types.ishl32 i sh) (va_eval_vec_opr va_s0 src1) in let r = Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Words_s.nat32 (fun (i:nat32) -> Vale.Arch.Types.ishr32 i (32 - sh)) (va_eval_vec_opr va_s0 src1) in va_eval_vec_opr va_sM dst == Vale.Def.Types_s.quad32_xor l (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 r) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 r) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 r))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vsl : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsl dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0 /\ (let sh = FStar.Seq.Base.index #nat8 (Vale.Def.Types_s.nat32_to_be_bytes (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2))) 3 `op_Modulus` 8 in let chk = fun (v:nat32) (sh:nat8) -> let bytes = Vale.Def.Types_s.nat32_to_be_bytes v in l_and (l_and (l_and (sh = FStar.Seq.Base.index #nat8 bytes 3 `op_Modulus` 8) (sh = FStar.Seq.Base.index #nat8 bytes 2 `op_Modulus` 8)) (sh = FStar.Seq.Base.index #nat8 bytes 1 `op_Modulus` 8)) (sh = FStar.Seq.Base.index #nat8 bytes 0 `op_Modulus` 8) in l_and (l_and (l_and (chk (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2)) sh) (chk (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) sh)) (chk (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) sh)) (chk (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) sh)))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (let sh = FStar.Seq.Base.index #nat8 (Vale.Def.Types_s.nat32_to_be_bytes (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2))) 3 `op_Modulus` 8 in let l = Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Words_s.nat32 (fun (i:nat32) -> Vale.Arch.Types.ishl32 i sh) (va_eval_vec_opr va_s0 src1) in let r = Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Words_s.nat32 (fun (i:nat32) -> Vale.Arch.Types.ishr32 i (32 - sh)) (va_eval_vec_opr va_s0 src1) in va_eval_vec_opr va_sM dst == Vale.Def.Types_s.quad32_xor l (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 r) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 r) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 r))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 319, "start_col": 0, "start_line": 314 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vsl", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vsl" ]	[]	false	false	false	false	false	let va_lemma_Vsl va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vsldoi	val va_lemma_Vsldoi : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsldoi dst src1 src2 count) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0 /\ (count == 4 \/ count == 8 \/ count == 12))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (count == 4 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1))) /\ (count == 8 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1))) /\ (count == 12 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vsldoi : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> count:quad32bytes -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsldoi dst src1 src2 count) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0 /\ (count == 4 \/ count == 8 \/ count == 12))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (count == 4 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1))) /\ (count == 8 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1))) /\ (count == 12 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 377, "start_col": 0, "start_line": 372 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> count: Vale.PPC64LE.Machine_s.quad32bytes -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.quad32bytes", "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.Vsldoi", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vsldoi" ]	[]	false	false	false	false	false	let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count =	va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Load128_word4_buffer_index	val va_codegen_success_Load128_word4_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Load128_word4_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 670, "start_col": 0, "start_line": 669 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Load128_word4_buffer_index h dst base offset t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Store128_word4_buffer	val va_code_Store128_word4_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Store128_word4_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 34, "end_line": 699, "start_col": 0, "start_line": 698 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Store128Word4", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Store128_word4_buffer h src base t =	(Ins (S.Store128Word4 src base))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Xxmrghd	val va_lemma_Xxmrghd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Xxmrghd dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Xxmrghd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Xxmrghd dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 436, "start_col": 0, "start_line": 431 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Xxmrghd", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Xxmrghd" ]	[]	false	false	false	false	false	let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Store128_word4_buffer_index	val va_code_Store128_word4_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Store128_word4_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 46, "end_line": 736, "start_col": 0, "start_line": 735 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Store128Word4Index", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Store128_word4_buffer_index h src base offset t =	(Ins (S.Store128Word4Index src base offset))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vsel	val va_lemma_Vsel : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsel dst src1 src2 sel) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_is_src_vec_opr sel 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 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 sel)) /\ Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 sel)) /\ Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 sel)) /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 sel)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vsel : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> sel:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsel dst src1 src2 sel) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_is_src_vec_opr sel 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 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 sel)) /\ Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 sel)) /\ Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 sel)) /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.Def.Sel.isel32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 sel)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 465, "start_col": 0, "start_line": 460 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> sel: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vsel", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vsel" ]	[]	false	false	false	false	false	let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel =	va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Store128_word4_buffer	val va_codegen_success_Store128_word4_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Store128_word4_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 703, "start_col": 0, "start_line": 702 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Store128_word4_buffer h src base t =	(va_ttrue ())	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.poly1305_finish	val poly1305_finish: #s:field_spec -> poly1305_finish_st s	val poly1305_finish: #s:field_spec -> poly1305_finish_st s	let poly1305_finish #s tag key ctx = let acc = get_acc ctx in let ks = sub key 16ul 16ul in let h0 = ST.get () in reduce_felem acc; let h1 = ST.get () in assert ((fas_nat h1 acc).[0] == (feval h0 acc).[0]); let (f10, f11) = uints64_from_felem_le acc in assert (v f11 * pow2 64 + v f10 == (fas_nat h1 acc).[0] % pow2 128); let (f20, f21) = uints64_from_bytes_le ks in assert (v f21 * pow2 64 + v f20 == BSeq.nat_from_bytes_le (as_seq h0 ks)); let (f30, f31) = mod_add128 (f10, f11) (f20, f21) in assert (v f31 * pow2 64 + v f30 == ((fas_nat h1 acc).[0] % pow2 128 + BSeq.nat_from_bytes_le (as_seq h0 ks)) % pow2 128); FStar.Math.Lemmas.lemma_mod_plus_distr_l (fas_nat h1 acc).[0] (BSeq.nat_from_bytes_le (as_seq h0 ks)) (pow2 128); uints64_to_bytes_le tag f30 f31	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 605, "start_col": 0, "start_line": 589 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len ! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi [@ Meta.Attribute.specialize ] let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr inline_for_extraction noextract val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0]) let update1 #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame () let poly1305_update1 #s ctx text = let pre = get_precomp_r ctx in let acc = get_acc ctx in update1 pre text acc inline_for_extraction noextract val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0]) #push-options "--z3rlimit 200" let poly1305_update_last #s pre len b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_last e len b; fadd_mul_r acc e pre; pop_frame () #pop-options inline_for_extraction noextract val poly1305_update_nblocks: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 (blocklen s) -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint acc p /\ disjoint acc b /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ feval h1 acc == Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul)) (as_seq h0 b) (feval h0 acc)) let poly1305_update_nblocks #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_blocks e b; fmul_rn acc acc pre; fadd acc acc e; pop_frame () inline_for_extraction noextract val poly1305_update1_f: #s:field_spec -> p:precomp_r s -> nb:size_t -> len:size_t{v nb == v len / 16} -> text:lbuffer uint8 len -> i:size_t{v i < v nb} -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h text /\ live h acc /\ disjoint acc p /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == LSeq.repeat_blocks_f #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16) (v nb) (v i) (feval h0 acc).[0]) let poly1305_update1_f #s pre nb len text i acc= assert ((v i + 1) 16 <= v nb * 16); let block = sub #_ #_ #len text (i ! 16ul) 16ul in update1 #s pre block acc #push-options "--z3rlimit 100 --max_fuel 1" inline_for_extraction noextract val poly1305_update_scalar: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0]) let poly1305_update_scalar #s len text pre acc = let nb = len /. 16ul in let rem = len %. 16ul in let h0 = ST.get () in LSeq.lemma_repeat_blocks #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (S.poly1305_update_last (feval h0 (gsub pre 0ul 5ul)).[0]) (feval h0 acc).[0]; [@ inline_let] let spec_fh h0 = LSeq.repeat_blocks_f 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (v nb) in [@ inline_let] let inv h (i:nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre /\ (feval h acc).[0] == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc).[0] in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc).[0] (v i); poly1305_update1_f #s pre nb len text i acc); let h1 = ST.get () in assert ((feval h1 acc).[0] == Lib.LoopCombinators.repeati (v nb) (spec_fh h0) (feval h0 acc).[0]); if rem >. 0ul then ( let last = sub text (nb ! 16ul) rem in as_seq_gsub h1 text (nb ! 16ul) rem; assert (disjoint acc last); poly1305_update_last #s pre rem last acc) #pop-options inline_for_extraction noextract val poly1305_update_multi_f: #s:field_spec -> p:precomp_r s -> bs:size_t{v bs == width s S.size_block} -> nb:size_t -> len:size_t{v nb == v len / v bs /\ v len % v bs == 0} -> text:lbuffer uint8 len -> i:size_t{v i < v nb} -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h text /\ live h acc /\ disjoint acc p /\ disjoint acc text /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 p /\ feval h1 acc == LSeq.repeat_blocks_f #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul))) (v nb) (v i) (feval h0 acc)) let poly1305_update_multi_f #s pre bs nb len text i acc= assert ((v i + 1) * v bs <= v nb * v bs); let block = sub #_ #_ #len text (i ! bs) bs in let h1 = ST.get () in as_seq_gsub h1 text (i ! bs) bs; poly1305_update_nblocks #s pre block acc #push-options "--max_fuel 1" inline_for_extraction noextract val poly1305_update_multi_loop: #s:field_spec -> bs:size_t{v bs == width s * S.size_block} -> len:size_t{v len % v (blocklen s) == 0} -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h pre /\ live h acc /\ live h text /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h1 pre /\ feval h1 acc == LSeq.repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc)) let poly1305_update_multi_loop #s bs len text pre acc = let nb = len /. bs in let h0 = ST.get () in LSeq.lemma_repeat_blocks_multi #uint8 #(Vec.elem (width s)) (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (feval h0 acc); [@ inline_let] let spec_fh h0 = LSeq.repeat_blocks_f (v bs) (as_seq h0 text) (Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub pre 10ul 5ul))) (v nb) in [@ inline_let] let inv h (i:nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h pre /\ feval h acc == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc) in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc) (v i); poly1305_update_multi_f #s pre bs nb len text i acc) #pop-options #push-options "--z3rlimit 350" inline_for_extraction noextract val poly1305_update_multi: #s:field_spec -> len:size_t{0 < v len /\ v len % v (blocklen s) == 0} -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h pre /\ live h acc /\ live h text /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == Vec.poly1305_update_multi #(width s) (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0]) let poly1305_update_multi #s len text pre acc = let h0 = ST.get () in assert_norm (v 10ul + v 5ul <= v 20ul); assert (feval h0 (gsub pre 10ul 5ul) == Vec.compute_rw #(width s) ((feval h0 (gsub pre 0ul 5ul)).[0])); let bs = blocklen s in //assert (v bs == width s * S.size_block); let text0 = sub text 0ul bs in load_acc #s acc text0; let len1 = len -! bs in let text1 = sub text bs len1 in poly1305_update_multi_loop #s bs len1 text1 pre acc; fmul_rn_normalize acc pre #pop-options inline_for_extraction noextract val poly1305_update_vec: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == Vec.poly1305_update_vec #(width s) (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0]) let poly1305_update_vec #s len text pre acc = let sz_block = blocklen s in FStar.Math.Lemmas.multiply_fractions (v len) (v sz_block); let len0 = (len /. sz_block) *! sz_block in let t0 = sub text 0ul len0 in FStar.Math.Lemmas.multiple_modulo_lemma (v (len /. sz_block)) (v (blocklen s)); if len0 >. 0ul then poly1305_update_multi len0 t0 pre acc; let len1 = len -! len0 in let t1 = sub text len0 len1 in poly1305_update_scalar #s len1 t1 pre acc inline_for_extraction noextract val poly1305_update32: poly1305_update_st M32 let poly1305_update32 ctx len text = let pre = get_precomp_r ctx in let acc = get_acc ctx in poly1305_update_scalar #M32 len text pre acc inline_for_extraction noextract val poly1305_update_128_256: #s:field_spec { s = M128 \|\| s = M256 } -> poly1305_update_st s let poly1305_update_128_256 #s ctx len text = let pre = get_precomp_r ctx in let acc = get_acc ctx in let h0 = ST.get () in poly1305_update_vec #s len text pre acc; let h1 = ST.get () in Equiv.poly1305_update_vec_lemma #(width s) (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0] inline_for_extraction noextract [@ Meta.Attribute.specialize ] let poly1305_update #s = match s with \| M32 -> poly1305_update32 \| _ -> poly1305_update_128_256 #s #set-options "--z3rlimit 150"	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 150, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Hacl.Impl.Poly1305.poly1305_finish_st s	Prims.Tot	[ "total" ]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "FStar.UInt32.__uint_to_t", "Hacl.Impl.Poly1305.poly1305_ctx", "Lib.IntTypes.uint64", "Hacl.Impl.Poly1305.Bignum128.uints64_to_bytes_le", "Prims.unit", "FStar.Math.Lemmas.lemma_mod_plus_distr_l", "Hacl.Impl.Poly1305.op_String_Access", "Prims.nat", "Hacl.Impl.Poly1305.Fields.width", "Hacl.Impl.Poly1305.Fields.fas_nat", "Lib.ByteSequence.nat_from_bytes_le", "Lib.IntTypes.SEC", "Lib.Buffer.as_seq", "Lib.Buffer.MUT", "Prims.pow2", "Prims._assert", "Prims.eq2", "Prims.int", "Prims.op_Addition", "FStar.Mul.op_Star", "Lib.IntTypes.v", "Lib.IntTypes.U64", "Prims.op_Modulus", "FStar.Pervasives.Native.tuple2", "Lib.IntTypes.int_t", "Hacl.Impl.Poly1305.Bignum128.mod_add128", "FStar.Pervasives.Native.Mktuple2", "Hacl.Impl.Poly1305.Bignum128.uints64_from_bytes_le", "Hacl.Impl.Poly1305.Fields.uints64_from_felem_le", "Prims.l_or", "FStar.Seq.Base.index", "Lib.Sequence.to_seq", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "Spec.Poly1305.prime", "Spec.Poly1305.felem", "Hacl.Impl.Poly1305.Fields.feval", "FStar.Monotonic.HyperStack.mem", "FStar.HyperStack.ST.get", "Hacl.Impl.Poly1305.Fields.reduce_felem", "Lib.Buffer.lbuffer_t", "Lib.IntTypes.U8", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.sub", "Hacl.Impl.Poly1305.Fields.felem", "Hacl.Impl.Poly1305.get_acc" ]	[]	false	false	false	false	false	let poly1305_finish #s tag key ctx =	let acc = get_acc ctx in let ks = sub key 16ul 16ul in let h0 = ST.get () in reduce_felem acc; let h1 = ST.get () in assert ((fas_nat h1 acc).[ 0 ] == (feval h0 acc).[ 0 ]); let f10, f11 = uints64_from_felem_le acc in assert (v f11 * pow2 64 + v f10 == (fas_nat h1 acc).[ 0 ] % pow2 128); let f20, f21 = uints64_from_bytes_le ks in assert (v f21 * pow2 64 + v f20 == BSeq.nat_from_bytes_le (as_seq h0 ks)); let f30, f31 = mod_add128 (f10, f11) (f20, f21) in assert (v f31 * pow2 64 + v f30 == ((fas_nat h1 acc).[ 0 ] % pow2 128 + BSeq.nat_from_bytes_le (as_seq h0 ks)) % pow2 128); FStar.Math.Lemmas.lemma_mod_plus_distr_l (fas_nat h1 acc).[ 0 ] (BSeq.nat_from_bytes_le (as_seq h0 ks)) (pow2 128); uints64_to_bytes_le tag f30 f31	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vcmpequw	val va_lemma_Vcmpequw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vcmpequw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) (if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) (if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) (if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vcmpequw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vcmpequw dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) (if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) (if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) (if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1) = Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2)) then 4294967295 else 0) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 348, "start_col": 0, "start_line": 343 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vcmpequw", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vcmpequw" ]	[]	false	false	false	false	false	let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Load128_byte16_buffer	val va_code_Load128_byte16_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Load128_byte16_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 34, "end_line": 774, "start_col": 0, "start_line": 773 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Load128Byte16", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Load128_byte16_buffer h dst base t =	(Ins (S.Load128Byte16 dst base))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Load128_byte16_buffer	val va_codegen_success_Load128_byte16_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Load128_byte16_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 778, "start_col": 0, "start_line": 777 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Load128_byte16_buffer h dst base t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Load128_byte16_buffer_index	val va_code_Load128_byte16_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Load128_byte16_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 46, "end_line": 806, "start_col": 0, "start_line": 805 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Load128Byte16Index", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Load128_byte16_buffer_index h dst base offset t =	(Ins (S.Load128Byte16Index dst base offset))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vspltisw	val va_wpProof_Vspltisw : dst:va_operand_vec_opr -> src:sim -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vspltisw dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vspltisw dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vspltisw : dst:va_operand_vec_opr -> src:sim -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vspltisw dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vspltisw dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 533, "start_col": 0, "start_line": 527 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vspltisw", "Vale.PPC64LE.InsVector.va_code_Vspltisw" ]	[]	false	false	false	false	false	let va_wpProof_Vspltisw dst src va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Load128_byte16_buffer_index	val va_codegen_success_Load128_byte16_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Load128_byte16_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 810, "start_col": 0, "start_line": 809 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Load128_byte16_buffer_index h dst base offset t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Store128_word4_buffer_index	val va_codegen_success_Store128_word4_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Store128_word4_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 740, "start_col": 0, "start_line": 739 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Store128_word4_buffer_index h src base offset t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vspltw	val va_wpProof_Vspltw : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vspltw dst src uim va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vspltw dst src uim) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vspltw : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vspltw dst src uim va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vspltw dst src uim) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 504, "start_col": 0, "start_line": 498 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> uim: Vale.Def.Words_s.nat2 -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.Def.Words_s.nat2", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vspltw", "Vale.PPC64LE.InsVector.va_code_Vspltw" ]	[]	false	false	false	false	false	let va_wpProof_Vspltw dst src uim va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
FStar.Math.Fermat.fst	FStar.Math.Fermat.binomial_theorem	val binomial_theorem (a b:int) (n:nat) : Lemma (pow (a + b) n == sum 0 n (fun i -> binomial n i * pow a (n - i) * pow b i))	val binomial_theorem (a b:int) (n:nat) : Lemma (pow (a + b) n == sum 0 n (fun i -> binomial n i * pow a (n - i) * pow b i))	let rec binomial_theorem a b n = if n = 0 then () else if n = 1 then (binomial_n 1; binomial_0 1) else let reorder (a b c d:int) : Lemma (a + b + (c + d) == a + d + (b + c)) = assert (a + b + (c + d) == a + d + (b + c)) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in calc (==) { pow (a + b) n; == { } (a + b) * pow (a + b) (n - 1); == { distributivity_add_left a b (pow (a + b) (n - 1)) } a * pow (a + b) (n - 1) + b * pow (a + b) (n - 1); == { binomial_theorem a b (n - 1) } a * sum 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * sum 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i); == { sum_scale 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i) a; sum_scale 0 (n - 1) (fun i -> binomial (n - 1) i * pow a (n - 1 - i) * pow b i) b } sum 0 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + sum 0 (n - 1) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); == { sum_first 0 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_last 0 (n - 1) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_extensionality 1 (n - 1) (fun (i:nat{1 <= i /\ i <= n - 1}) -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (fun (i:nat{0 <= i /\ i <= n - 1}) -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_extensionality 0 (n - 2) (fun (i:nat{0 <= i /\ i <= n - 2}) -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (fun (i:nat{0 <= i /\ i <= n - 1}) -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i))} (a * (binomial (n - 0) 0 * pow a (n - 1 - 0) * pow b 0)) + sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + (sum 0 (n - 2) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + b * (binomial (n - 1) (n - 1) * pow a (n - 1 - (n - 1)) * pow b (n - 1))); == { binomial_0 n; binomial_n (n - 1) } pow a n + sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + (sum 0 (n - 2) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + pow b n); == { sum_shift 0 (n - 2) (fun i -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)); sum_extensionality 1 (n - 1) (fun (i:nat{1 <= i /\ i <= n - 1}) -> (fun (i:nat{0 <= i /\ i <= n - 2}) -> b * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (i - 1)) (fun (i:nat{1 <= i /\ i <= n - 2 + 1}) -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) } pow a n + sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + (sum 1 (n - 1) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) + pow b n); == { reorder (pow a n) (sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i))) (sum 1 (n - 2 + 1) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)))) (pow b n) } a * pow a (n - 1) + b * pow b (n - 1) + (sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) + sum 1 (n - 1) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)))); == { sum_add 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i)) (fun i -> b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) } pow a n + pow b n + (sum 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)))); == { Classical.forall_intro (binomial_theorem_aux a b n); sum_extensionality 1 (n - 1) (fun i -> a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1))) (fun i -> binomial n i * pow a (n - i) * pow b i) } pow a n + pow b n + sum 1 (n - 1) (fun i -> binomial n i * pow a (n - i) * pow b i); == { } pow a n + (sum 1 (n - 1) (fun i -> binomial n i * pow a (n - i) * pow b i) + pow b n); == { binomial_0 n; binomial_n n } binomial n 0 * pow a (n - 0) * pow b 0 + (sum 1 (n - 1) (fun i -> binomial n i * pow a (n - i) * pow b i) + binomial n n * pow a (n - n) * pow b n); == { sum_first 0 n (fun i -> binomial n i * pow a (n - i) * pow b i); sum_last 1 n (fun i -> binomial n i * pow a (n - i) * pow b i); sum_extensionality 1 n (fun (i:nat{0 <= i /\ i <= n}) -> binomial n i * pow a (n - i) * pow b i) (fun (i:nat{1 <= i /\ i <= n}) -> binomial n i * pow a (n - i) * pow b i); sum_extensionality 1 (n - 1) (fun (i:nat{1 <= i /\ i <= n}) -> binomial n i * pow a (n - i) * pow b i) (fun (i:nat{1 <= i /\ i <= n - 1}) -> binomial n i * pow a (n - i) * pow b i) } sum 0 n (fun i -> binomial n i * pow a (n - i) * pow b i); }	{ "file_name": "ulib/FStar.Math.Fermat.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 5, "end_line": 354, "start_col": 0, "start_line": 272 }	module FStar.Math.Fermat open FStar.Mul open FStar.Math.Lemmas open FStar.Math.Euclid #set-options "--fuel 1 --ifuel 0 --z3rlimit 20" /// /// Pow /// val pow_zero (k:pos) : Lemma (ensures pow 0 k == 0) (decreases k) let rec pow_zero k = match k with \| 1 -> () \| _ -> pow_zero (k - 1) val pow_one (k:nat) : Lemma (pow 1 k == 1) let rec pow_one = function \| 0 -> () \| k -> pow_one (k - 1) val pow_plus (a:int) (k m:nat): Lemma (pow a (k + m) == pow a k * pow a m) let rec pow_plus a k m = match k with \| 0 -> () \| _ -> calc (==) { pow a (k + m); == { } a * pow a ((k + m) - 1); == { pow_plus a (k - 1) m } a * (pow a (k - 1) * pow a m); == { } pow a k * pow a m; } val pow_mod (p:pos) (a:int) (k:nat) : Lemma (pow a k % p == pow (a % p) k % p) let rec pow_mod p a k = if k = 0 then () else calc (==) { pow a k % p; == { } a * pow a (k - 1) % p; == { lemma_mod_mul_distr_r a (pow a (k - 1)) p } (a * (pow a (k - 1) % p)) % p; == { pow_mod p a (k - 1) } (a * (pow (a % p) (k - 1) % p)) % p; == { lemma_mod_mul_distr_r a (pow (a % p) (k - 1)) p } a * pow (a % p) (k - 1) % p; == { lemma_mod_mul_distr_l a (pow (a % p) (k - 1)) p } (a % p * pow (a % p) (k - 1)) % p; == { } pow (a % p) k % p; } /// /// Binomial theorem /// val binomial (n k:nat) : nat let rec binomial n k = match n, k with \| _, 0 -> 1 \| 0, _ -> 0 \| _, _ -> binomial (n - 1) k + binomial (n - 1) (k - 1) val binomial_0 (n:nat) : Lemma (binomial n 0 == 1) let binomial_0 n = () val binomial_lt (n:nat) (k:nat{n < k}) : Lemma (binomial n k = 0) let rec binomial_lt n k = match n, k with \| _, 0 -> () \| 0, _ -> () \| _ -> binomial_lt (n - 1) k; binomial_lt (n - 1) (k - 1) val binomial_n (n:nat) : Lemma (binomial n n == 1) let rec binomial_n n = match n with \| 0 -> () \| _ -> binomial_lt n (n + 1); binomial_n (n - 1) val pascal (n:nat) (k:pos{k <= n}) : Lemma (binomial n k + binomial n (k - 1) = binomial (n + 1) k) let pascal n k = () val factorial: nat -> pos let rec factorial = function \| 0 -> 1 \| n -> n * factorial (n - 1) let ( ! ) n = factorial n val binomial_factorial (m n:nat) : Lemma (binomial (n + m) n * (!n * !m) == !(n + m)) let rec binomial_factorial m n = match m, n with \| 0, _ -> binomial_n n \| _, 0 -> () \| _ -> let open FStar.Math.Lemmas in let reorder1 (a b c d:int) : Lemma (a * (b * (c * d)) == c * (a * (b * d))) = assert (a * (b * (c * d)) == c * (a * (b * d))) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in let reorder2 (a b c d:int) : Lemma (a * ((b * c) * d) == b * (a * (c * d))) = assert (a * ((b * c) * d) == b * (a * (c * d))) by (FStar.Tactics.CanonCommSemiring.int_semiring()) in calc (==) { binomial (n + m) n * (!n * !m); == { pascal (n + m - 1) n } (binomial (n + m - 1) n + binomial (n + m - 1) (n - 1)) * (!n * !m); == { addition_is_associative n m (-1) } (binomial (n + (m - 1)) n + binomial (n + (m - 1)) (n - 1)) * (!n * !m); == { distributivity_add_left (binomial (n + (m - 1)) n) (binomial (n + (m - 1)) (n - 1)) (!n * !m) } binomial (n + (m - 1)) n * (!n * !m) + binomial (n + (m - 1)) (n - 1) * (!n * !m); == { } binomial (n + (m - 1)) n * (!n * (m * !(m - 1))) + binomial ((n - 1) + m) (n - 1) * ((n * !(n - 1)) * !m); == { reorder1 (binomial (n + (m - 1)) n) (!n) m (!(m - 1)); reorder2 (binomial ((n - 1) + m) (n - 1)) n (!(n - 1)) (!m) } m * (binomial (n + (m - 1)) n * (!n * !(m - 1))) + n * (binomial ((n - 1) + m) (n - 1) * (!(n - 1) * !m)); == { binomial_factorial (m - 1) n; binomial_factorial m (n - 1) } m * !(n + (m - 1)) + n * !((n - 1) + m); == { } m * !(n + m - 1) + n * !(n + m - 1); == { } n * !(n + m - 1) + m * !(n + m - 1); == { distributivity_add_left m n (!(n + m - 1)) } (n + m) * !(n + m - 1); == { } !(n + m); } val sum: a:nat -> b:nat{a <= b} -> f:((i:nat{a <= i /\ i <= b}) -> int) -> Tot int (decreases (b - a)) let rec sum a b f = if a = b then f a else f a + sum (a + 1) b f val sum_extensionality (a:nat) (b:nat{a <= b}) (f g:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (requires forall (i:nat{a <= i /\ i <= b}). f i == g i) (ensures sum a b f == sum a b g) (decreases (b - a)) let rec sum_extensionality a b f g = if a = b then () else sum_extensionality (a + 1) b f g val sum_first (a:nat) (b:nat{a < b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (sum a b f == f a + sum (a + 1) b f) let sum_first a b f = () val sum_last (a:nat) (b:nat{a < b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f == sum a (b - 1) f + f b) (decreases (b - a)) let rec sum_last a b f = if a + 1 = b then sum_first a b f else sum_last (a + 1) b f val sum_const (a:nat) (b:nat{a <= b}) (k:int) : Lemma (ensures sum a b (fun i -> k) == k * (b - a + 1)) (decreases (b - a)) let rec sum_const a b k = if a = b then () else begin sum_const (a + 1) b k; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> k) (fun (i:nat{a + 1 <= i /\ i <= b}) -> k) end val sum_scale (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) (k:int) : Lemma (ensures k * sum a b f == sum a b (fun i -> k * f i)) (decreases (b - a)) let rec sum_scale a b f k = if a = b then () else begin sum_scale (a + 1) b f k; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> k * f i) (fun (i:nat{a + 1 <= i /\ i <= b}) -> k * f i) end val sum_add (a:nat) (b:nat{a <= b}) (f g:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f + sum a b g == sum a b (fun i -> f i + g i)) (decreases (b - a)) let rec sum_add a b f g = if a = b then () else begin sum_add (a + 1) b f g; sum_extensionality (a + 1) b (fun (i:nat{a <= i /\ i <= b}) -> f i + g i) (fun (i:nat{a + 1 <= i /\ i <= b}) -> f i + g i) end val sum_shift (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) : Lemma (ensures sum a b f == sum (a + 1) (b + 1) (fun (i:nat{a + 1 <= i /\ i <= b + 1}) -> f (i - 1))) (decreases (b - a)) let rec sum_shift a b f = if a = b then () else begin sum_shift (a + 1) b f; sum_extensionality (a + 2) (b + 1) (fun (i:nat{a + 1 <= i /\ i <= b + 1}) -> f (i - 1)) (fun (i:nat{a + 1 + 1 <= i /\ i <= b + 1}) -> f (i - 1)) end val sum_mod (a:nat) (b:nat{a <= b}) (f:(i:nat{a <= i /\ i <= b}) -> int) (n:pos) : Lemma (ensures sum a b f % n == sum a b (fun i -> f i % n) % n) (decreases (b - a)) let rec sum_mod a b f n = if a = b then () else let g = fun (i:nat{a <= i /\ i <= b}) -> f i % n in let f' = fun (i:nat{a + 1 <= i /\ i <= b}) -> f i % n in calc (==) { sum a b f % n; == { sum_first a b f } (f a + sum (a + 1) b f) % n; == { lemma_mod_plus_distr_r (f a) (sum (a + 1) b f) n } (f a + (sum (a + 1) b f) % n) % n; == { sum_mod (a + 1) b f n; sum_extensionality (a + 1) b f' g } (f a + sum (a + 1) b g % n) % n; == { lemma_mod_plus_distr_r (f a) (sum (a + 1) b g) n } (f a + sum (a + 1) b g) % n; == { lemma_mod_plus_distr_l (f a) (sum (a + 1) b g) n } (f a % n + sum (a + 1) b g) % n; == { } sum a b g % n; } val binomial_theorem_aux (a b:int) (n:nat) (i:nat{1 <= i /\ i <= n - 1}) : Lemma (a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)) == binomial n i * pow a (n - i) * pow b i) let binomial_theorem_aux a b n i = let open FStar.Math.Lemmas in calc (==) { a * (binomial (n - 1) i * pow a (n - 1 - i) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1)) * pow b (i - 1)); == { } a * (binomial (n - 1) i * pow a ((n - i) - 1) * pow b i) + b * (binomial (n - 1) (i - 1) * pow a (n - i) * pow b (i - 1)); == { _ by (FStar.Tactics.CanonCommSemiring.int_semiring()) } binomial (n - 1) i * ((a * pow a ((n - i) - 1)) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * (b * pow b (i - 1))); == { assert (a * pow a ((n - i) - 1) == pow a (n - i)); assert (b * pow b (i - 1) == pow b i) } binomial (n - 1) i * (pow a (n - i) * pow b i) + binomial (n - 1) (i - 1) * (pow a (n - i) * pow b i); == { _ by (FStar.Tactics.CanonCommSemiring.int_semiring()) } (binomial (n - 1) i + binomial (n - 1) (i - 1)) * (pow a (n - i) * pow b i); == { pascal (n - 1) i } binomial n i * (pow a (n - i) * pow b i); == { paren_mul_right (binomial n i) (pow a (n - i)) (pow b i) } binomial n i * pow a (n - i) * pow b i; } #push-options "--fuel 2" val binomial_theorem (a b:int) (n:nat) : Lemma	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Tactics.Effect.fsti.checked", "FStar.Tactics.CanonCommSemiring.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.Math.Euclid.fsti.checked", "FStar.Classical.fsti.checked", "FStar.Calc.fsti.checked" ], "interface_file": true, "source_file": "FStar.Math.Fermat.fst" }	[ { "abbrev": false, "full_module": "FStar.Math.Euclid", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math.Lemmas", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math.Euclid", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math", "short_module": null }, { "abbrev": false, "full_module": "FStar.Math", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 2, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 20, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Prims.int -> b: Prims.int -> n: Prims.nat -> FStar.Pervasives.Lemma (ensures FStar.Math.Fermat.pow (a + b) n == FStar.Math.Fermat.sum 0 n (fun i -> (FStar.Math.Fermat.binomial n i * FStar.Math.Fermat.pow a (n - i)) * FStar.Math.Fermat.pow b i))	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Prims.int", "Prims.nat", "Prims.op_Equality", "Prims.bool", "FStar.Math.Fermat.binomial_0", "Prims.unit", "FStar.Math.Fermat.binomial_n", "FStar.Calc.calc_finish", "Prims.eq2", "FStar.Math.Fermat.pow", "Prims.op_Addition", "FStar.Math.Fermat.sum", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.Mul.op_Star", "FStar.Math.Fermat.binomial", "Prims.op_Subtraction", "Prims.Cons", "FStar.Preorder.relation", "Prims.Nil", "FStar.Calc.calc_step", "FStar.Calc.calc_init", "FStar.Calc.calc_pack", "Prims.squash", "FStar.Math.Lemmas.distributivity_add_left", "FStar.Math.Fermat.binomial_theorem", "FStar.Math.Fermat.sum_scale", "FStar.Math.Fermat.sum_extensionality", "FStar.Math.Fermat.sum_last", "FStar.Math.Fermat.sum_first", "FStar.Math.Fermat.sum_shift", "FStar.Math.Fermat.sum_add", "FStar.Classical.forall_intro", "FStar.Math.Fermat.binomial_theorem_aux", "Prims.l_True", "FStar.Pervasives.pattern", "FStar.Tactics.Effect.assert_by_tactic", "FStar.Tactics.CanonCommSemiring.int_semiring" ]	[ "recursion" ]	false	false	true	false	false	let rec binomial_theorem a b n =	if n = 0 then () else if n = 1 then (binomial_n 1; binomial_0 1) else let reorder (a b c d: int) : Lemma (a + b + (c + d) == a + d + (b + c)) = FStar.Tactics.Effect.assert_by_tactic (a + b + (c + d) == a + d + (b + c)) (fun _ -> (); (FStar.Tactics.CanonCommSemiring.int_semiring ())) in calc ( == ) { pow (a + b) n; ( == ) { () } (a + b) * pow (a + b) (n - 1); ( == ) { distributivity_add_left a b (pow (a + b) (n - 1)) } a * pow (a + b) (n - 1) + b * pow (a + b) (n - 1); ( == ) { binomial_theorem a b (n - 1) } a * sum 0 (n - 1) (fun i -> (binomial (n - 1) i * pow a (n - 1 - i)) * pow b i) + b * sum 0 (n - 1) (fun i -> (binomial (n - 1) i * pow a (n - 1 - i)) * pow b i); ( == ) { (sum_scale 0 (n - 1) (fun i -> (binomial (n - 1) i * pow a (n - 1 - i)) * pow b i) a; sum_scale 0 (n - 1) (fun i -> (binomial (n - 1) i * pow a (n - 1 - i)) * pow b i) b) } sum 0 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) + sum 0 (n - 1) (fun i -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)); ( == ) { (sum_first 0 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)); sum_last 0 (n - 1) (fun i -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)); sum_extensionality 1 (n - 1) (fun (i: nat{1 <= i /\ i <= n - 1}) -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) (fun (i: nat{0 <= i /\ i <= n - 1}) -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)); sum_extensionality 0 (n - 2) (fun (i: nat{0 <= i /\ i <= n - 2}) -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) (fun (i: nat{0 <= i /\ i <= n - 1}) -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i))) } (a * ((binomial (n - 0) 0 * pow a (n - 1 - 0)) * pow b 0)) + sum 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) + (sum 0 (n - 2) (fun i -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) + b * ((binomial (n - 1) (n - 1) * pow a (n - 1 - (n - 1))) * pow b (n - 1))); ( == ) { (binomial_0 n; binomial_n (n - 1)) } pow a n + sum 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) + (sum 0 (n - 2) (fun i -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) + pow b n); ( == ) { (sum_shift 0 (n - 2) (fun i -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)); sum_extensionality 1 (n - 1) (fun (i: nat{1 <= i /\ i <= n - 1}) -> (fun (i: nat{0 <= i /\ i <= n - 2}) -> b * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) (i - 1)) (fun (i: nat{1 <= i /\ i <= n - 2 + 1}) -> b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1)))) } pow a n + sum 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) + (sum 1 (n - 1) (fun i -> b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1))) + pow b n); ( == ) { reorder (pow a n) (sum 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i))) (sum 1 (n - 2 + 1) (fun i -> b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1)))) (pow b n) } a * pow a (n - 1) + b * pow b (n - 1) + (sum 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) + sum 1 (n - 1) (fun i -> b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1)))); ( == ) { sum_add 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i)) (fun i -> b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1))) } pow a n + pow b n + (sum 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i) + b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1)))); ( == ) { (Classical.forall_intro (binomial_theorem_aux a b n); sum_extensionality 1 (n - 1) (fun i -> a * ((binomial (n - 1) i * pow a (n - 1 - i)) * pow b i) + b * ((binomial (n - 1) (i - 1) * pow a (n - 1 - (i - 1))) * pow b (i - 1))) (fun i -> (binomial n i * pow a (n - i)) * pow b i)) } pow a n + pow b n + sum 1 (n - 1) (fun i -> (binomial n i * pow a (n - i)) * pow b i); ( == ) { () } pow a n + (sum 1 (n - 1) (fun i -> (binomial n i * pow a (n - i)) * pow b i) + pow b n); ( == ) { (binomial_0 n; binomial_n n) } (binomial n 0 * pow a (n - 0)) * pow b 0 + (sum 1 (n - 1) (fun i -> (binomial n i * pow a (n - i)) * pow b i) + (binomial n n * pow a (n - n)) * pow b n); ( == ) { (sum_first 0 n (fun i -> (binomial n i * pow a (n - i)) * pow b i); sum_last 1 n (fun i -> (binomial n i * pow a (n - i)) * pow b i); sum_extensionality 1 n (fun (i: nat{0 <= i /\ i <= n}) -> (binomial n i * pow a (n - i)) * pow b i) (fun (i: nat{1 <= i /\ i <= n}) -> (binomial n i * pow a (n - i)) * pow b i); sum_extensionality 1 (n - 1) (fun (i: nat{1 <= i /\ i <= n}) -> (binomial n i * pow a (n - i)) * pow b i) (fun (i: nat{1 <= i /\ i <= n - 1}) -> (binomial n i * pow a (n - i)) * pow b i)) } sum 0 n (fun i -> (binomial n i * pow a (n - i)) * pow b i); }	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Store128_byte16_buffer	val va_codegen_success_Store128_byte16_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Store128_byte16_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 843, "start_col": 0, "start_line": 842 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Store128_byte16_buffer h src base t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Store128_byte16_buffer	val va_code_Store128_byte16_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Store128_byte16_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 35, "end_line": 839, "start_col": 0, "start_line": 838 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Store128Byte16", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Store128_byte16_buffer h src base t =	(Ins (S.Store128Byte16 src base))	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.poly1305_init	val poly1305_init: #s:field_spec -> poly1305_init_st s	val poly1305_init: #s:field_spec -> poly1305_init_st s	let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 29, "end_line": 232, "start_col": 0, "start_line": 226 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len *! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Hacl.Impl.Poly1305.poly1305_init_st s	Prims.Tot	[ "total" ]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Hacl.Impl.Poly1305.poly1305_ctx", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "FStar.UInt32.__uint_to_t", "Hacl.Impl.Poly1305.poly1305_encode_r", "Prims.unit", "Hacl.Impl.Poly1305.Fields.set_zero", "Lib.Buffer.lbuffer_t", "Lib.Buffer.MUT", "Lib.IntTypes.int_t", "Lib.IntTypes.U8", "Lib.IntTypes.SEC", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.sub", "Hacl.Impl.Poly1305.Fields.precomp_r", "Hacl.Impl.Poly1305.get_precomp_r", "Hacl.Impl.Poly1305.Fields.felem", "Hacl.Impl.Poly1305.get_acc" ]	[]	false	false	false	false	false	let poly1305_init #s ctx key =	let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vspltw	val va_lemma_Vspltw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vspltw dst src uim) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (uim == 0 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src))) /\ (uim == 1 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src))) /\ (uim == 2 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src))) /\ (uim == 3 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vspltw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> uim:nat2 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vspltw dst src uim) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (uim == 0 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src))) /\ (uim == 1 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src))) /\ (uim == 2 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src))) /\ (uim == 3 ==> va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 494, "start_col": 0, "start_line": 489 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> uim: Vale.Def.Words_s.nat2 -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.Def.Words_s.nat2", "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.Vspltw", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vspltw" ]	[]	false	false	false	false	false	let va_lemma_Vspltw va_b0 va_s0 dst src uim =	va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Load128_buffer	val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_buffer h dst base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_buffer h dst base offset t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_buffer h dst base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_buffer h dst base offset t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 594, "start_col": 0, "start_line": 587 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Load128_buffer", "Vale.PPC64LE.InsVector.va_code_Load128_buffer" ]	[]	false	false	false	false	false	let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Store128_byte16_buffer_index	val va_code_Store128_byte16_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	val va_code_Store128_byte16_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_code	let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 47, "end_line": 873, "start_col": 0, "start_line": 872 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Store128Byte16Index", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Store128_byte16_buffer_index h src base offset t =	(Ins (S.Store128Byte16Index src base offset))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vspltisb	val va_wpProof_Vspltisb : dst:va_operand_vec_opr -> src:sim -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vspltisb dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vspltisb dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vspltisb : dst:va_operand_vec_opr -> src:sim -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vspltisb dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vspltisb dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 562, "start_col": 0, "start_line": 556 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vspltisb", "Vale.PPC64LE.InsVector.va_code_Vspltisb" ]	[]	false	false	false	false	false	let va_wpProof_Vspltisb dst src va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_SHA256_sigma1	val va_code_SHA256_sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	val va_code_SHA256_sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 939, "start_col": 0, "start_line": 938 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw1", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_SHA256_sigma1 dst src =	(Ins (S.Vshasigmaw1 dst src))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Store128_byte16_buffer_index	val va_codegen_success_Store128_byte16_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	val va_codegen_success_Store128_byte16_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> Tot va_pbool	let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 877, "start_col": 0, "start_line": 876 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Store128_byte16_buffer_index h src base offset t =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_SHA256_sigma0	val va_codegen_success_SHA256_sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_SHA256_sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 912, "start_col": 0, "start_line": 911 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_SHA256_sigma0 dst src =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vspltisw	val va_lemma_Vspltisw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:sim -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vspltisw dst src) va_s0 /\ va_is_dst_vec_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 /\ (let src_nat32 = Vale.PPC64LE.Machine_s.int_to_nat32 src in va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 src_nat32 src_nat32 src_nat32 src_nat32) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vspltisw : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:sim -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vspltisw dst src) va_s0 /\ va_is_dst_vec_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 /\ (let src_nat32 = Vale.PPC64LE.Machine_s.int_to_nat32 src in va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 src_nat32 src_nat32 src_nat32 src_nat32) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 523, "start_col": 0, "start_line": 518 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "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.Vspltisw", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vspltisw" ]	[]	false	false	false	false	false	let va_lemma_Vspltisw va_b0 va_s0 dst src =	va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_SHA256_sigma0	val va_code_SHA256_sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	val va_code_SHA256_sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 908, "start_col": 0, "start_line": 907 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw0", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_SHA256_sigma0 dst src =	(Ins (S.Vshasigmaw0 dst src))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_SHA256_Sigma1	val va_codegen_success_SHA256_Sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_SHA256_Sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1005, "start_col": 0, "start_line": 1004 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_SHA256_Sigma1 dst src =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Store128_buffer	val va_wpProof_Store128_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_buffer h src base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h src base offset t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Store128_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_buffer h src base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h src base offset t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 627, "start_col": 0, "start_line": 619 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_Mod_mem", "Vale.PPC64LE.QuickCode.va_mod_heaplet", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_mem", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_heaplet", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Store128_buffer", "Vale.PPC64LE.InsVector.va_code_Store128_buffer" ]	[]	false	false	false	false	false	let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vspltisb	val va_lemma_Vspltisb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:sim -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vspltisb dst src) va_s0 /\ va_is_dst_vec_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 /\ (let src_nat8 = Vale.PPC64LE.Machine_s.int_to_nat8 src in let src_nat32 = Vale.Def.Types_s.be_bytes_to_nat32 (Vale.Def.Words.Seq_s.four_to_seq_BE #Vale.Def.Types_s.nat8 (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat8 src_nat8 src_nat8 src_nat8 src_nat8)) in va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 src_nat32 src_nat32 src_nat32 src_nat32) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vspltisb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:sim -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vspltisb dst src) va_s0 /\ va_is_dst_vec_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 /\ (let src_nat8 = Vale.PPC64LE.Machine_s.int_to_nat8 src in let src_nat32 = Vale.Def.Types_s.be_bytes_to_nat32 (Vale.Def.Words.Seq_s.four_to_seq_BE #Vale.Def.Types_s.nat8 (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat8 src_nat8 src_nat8 src_nat8 src_nat8)) in va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 src_nat32 src_nat32 src_nat32 src_nat32) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 552, "start_col": 0, "start_line": 547 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Machine_s.sim -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.sim", "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.Vspltisb", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vspltisb" ]	[]	false	false	false	false	false	let va_lemma_Vspltisb va_b0 va_s0 dst src =	va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_SHA256_Sigma0	val va_codegen_success_SHA256_Sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_SHA256_Sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 974, "start_col": 0, "start_line": 973 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_SHA256_Sigma0 dst src =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_SHA256_Sigma1	val va_code_SHA256_Sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	val va_code_SHA256_Sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 1001, "start_col": 0, "start_line": 1000 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw3", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_SHA256_Sigma1 dst src =	(Ins (S.Vshasigmaw3 dst src))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_SHA256_sigma1	val va_codegen_success_SHA256_sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_SHA256_sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 943, "start_col": 0, "start_line": 942 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_SHA256_sigma1 dst src =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vsbox	val va_codegen_success_Vsbox : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vsbox : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vsbox dst src = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1036, "start_col": 0, "start_line": 1035 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vsbox dst src =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Load128_word4_buffer_index	val va_wpProof_Load128_word4_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_word4_buffer_index h dst base offset t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Load128_word4_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_word4_buffer_index h dst base offset t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 692, "start_col": 0, "start_line": 685 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Load128_word4_buffer_index", "Vale.PPC64LE.InsVector.va_code_Load128_word4_buffer_index" ]	[]	false	false	false	false	false	let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Load128_word4_buffer	val va_wpProof_Load128_word4_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_word4_buffer h dst base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_word4_buffer h dst base t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Load128_word4_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_word4_buffer h dst base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_word4_buffer h dst base t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 659, "start_col": 0, "start_line": 652 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Load128_word4_buffer", "Vale.PPC64LE.InsVector.va_code_Load128_word4_buffer" ]	[]	false	false	false	false	false	let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vsbox	val va_code_Vsbox : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	val va_code_Vsbox : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	let va_code_Vsbox dst src = (Ins (S.Vsbox dst src))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 25, "end_line": 1032, "start_col": 0, "start_line": 1031 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vsbox", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vsbox dst src =	(Ins (S.Vsbox dst src))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_SHA256_Sigma0	val va_code_SHA256_Sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	val va_code_SHA256_Sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Tot va_code	let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 970, "start_col": 0, "start_line": 969 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw2", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_SHA256_Sigma0 dst src =	(Ins (S.Vshasigmaw2 dst src))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Store128_word4_buffer	val va_wpProof_Store128_word4_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_word4_buffer h src base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_word4_buffer h src base t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Store128_word4_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_word4_buffer h src base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_word4_buffer h src base t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 729, "start_col": 0, "start_line": 721 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_Mod_mem", "Vale.PPC64LE.QuickCode.va_mod_heaplet", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_mem", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_heaplet", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Store128_word4_buffer", "Vale.PPC64LE.InsVector.va_code_Store128_word4_buffer" ]	[]	false	false	false	false	false	let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false

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