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.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_PshufbDup | val va_quick_PshufbDup (dst src: va_operand_xmm) : (va_quickCode unit (va_code_PshufbDup dst src)) | val va_quick_PshufbDup (dst src: va_operand_xmm) : (va_quickCode unit (va_code_PshufbDup dst src)) | let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 35,
"end_line": 714,
"start_col": 0,
"start_line": 711
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_PshufbDup dst src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_PshufbDup",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_PshufbDup",
"Vale.X64.InsVector.va_wpProof_PshufbDup",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PshufbDup (dst src: va_operand_xmm) : (va_quickCode unit (va_code_PshufbDup dst src)) =
| (va_QProc (va_code_PshufbDup dst src)
([va_Mod_flags; va_mod_xmm dst])
(va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src)) | false |
Spec.Frodo.KEM.Decaps.fst | Spec.Frodo.KEM.Decaps.get_bpp_cp_matrices_ | val get_bpp_cp_matrices_:
a:frodo_alg
-> gen_a:frodo_gen_a
-> mu_decode:lbytes (bytes_mu a) //mup
-> sk:lbytes (crypto_secretkeybytes a)
-> sp_matrix:matrix params_nbar (params_n a)
-> ep_matrix:matrix params_nbar (params_n a)
-> epp_matrix:matrix params_nbar params_nbar
-> matrix params_nbar (params_n a) & matrix params_nbar params_nbar | val get_bpp_cp_matrices_:
a:frodo_alg
-> gen_a:frodo_gen_a
-> mu_decode:lbytes (bytes_mu a) //mup
-> sk:lbytes (crypto_secretkeybytes a)
-> sp_matrix:matrix params_nbar (params_n a)
-> ep_matrix:matrix params_nbar (params_n a)
-> epp_matrix:matrix params_nbar params_nbar
-> matrix params_nbar (params_n a) & matrix params_nbar params_nbar | let get_bpp_cp_matrices_ a gen_a mu_decode sk sp_matrix ep_matrix epp_matrix =
let pk = LSeq.sub sk (crypto_bytes a) (crypto_publickeybytes a) in
let seed_a = LSeq.sub pk 0 bytes_seed_a in
let b = LSeq.sub pk bytes_seed_a (crypto_publickeybytes a - bytes_seed_a) in
let bpp_matrix = frodo_mul_add_sa_plus_e a gen_a seed_a sp_matrix ep_matrix in
let cp_matrix = frodo_mul_add_sb_plus_e_plus_mu a mu_decode b sp_matrix epp_matrix in
let bpp_matrix = mod_pow2 (params_logq a) bpp_matrix in
let cp_matrix = mod_pow2 (params_logq a) cp_matrix in
bpp_matrix, cp_matrix | {
"file_name": "specs/frodo/Spec.Frodo.KEM.Decaps.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 23,
"end_line": 71,
"start_col": 0,
"start_line": 61
} | module Spec.Frodo.KEM.Decaps
open FStar.Mul
open Lib.IntTypes
open Lib.Sequence
open Lib.ByteSequence
open Spec.Matrix
open Spec.Frodo.Params
open Spec.Frodo.KEM.Encaps
open Spec.Frodo.Encode
open Spec.Frodo.Pack
open Spec.Frodo.Sample
module LSeq = Lib.Sequence
module Matrix = Spec.Matrix
module KG = Spec.Frodo.KEM.KeyGen
module FL = Spec.Frodo.Lemmas
#set-options "--z3rlimit 50 --fuel 0 --ifuel 0"
val get_bp_c_matrices:
a:frodo_alg
-> ct:lbytes (crypto_ciphertextbytes a)
-> matrix params_nbar (params_n a) & matrix params_nbar params_nbar
let get_bp_c_matrices a ct =
expand_crypto_ciphertextbytes a;
let c1 = LSeq.sub ct 0 (ct1bytes_len a) in
let c2 = LSeq.sub ct (ct1bytes_len a) (ct2bytes_len a) in
let bp_matrix = frodo_unpack #params_nbar #(params_n a) (params_logq a) c1 in
let c_matrix = frodo_unpack #params_nbar #params_nbar (params_logq a) c2 in
bp_matrix, c_matrix
val frodo_mu_decode:
a:frodo_alg
-> s_bytes:lbytes (secretmatrixbytes_len a)
-> bp_matrix:matrix params_nbar (params_n a)
-> c_matrix:matrix params_nbar params_nbar
-> lbytes (bytes_mu a)
let frodo_mu_decode a s_bytes bp_matrix c_matrix =
let s_matrix = matrix_from_lbytes (params_n a) params_nbar s_bytes in
let m_matrix = Matrix.sub c_matrix (Matrix.mul_s bp_matrix s_matrix) in
let mu_decode = frodo_key_decode (params_logq a) (params_extracted_bits a) params_nbar m_matrix in
mu_decode
val get_bpp_cp_matrices_:
a:frodo_alg
-> gen_a:frodo_gen_a
-> mu_decode:lbytes (bytes_mu a) //mup
-> sk:lbytes (crypto_secretkeybytes a)
-> sp_matrix:matrix params_nbar (params_n a)
-> ep_matrix:matrix params_nbar (params_n a)
-> epp_matrix:matrix params_nbar params_nbar
-> matrix params_nbar (params_n a) & matrix params_nbar params_nbar | {
"checked_file": "/",
"dependencies": [
"Spec.Matrix.fst.checked",
"Spec.Frodo.Sample.fst.checked",
"Spec.Frodo.Params.fst.checked",
"Spec.Frodo.Pack.fst.checked",
"Spec.Frodo.Lemmas.fst.checked",
"Spec.Frodo.KEM.KeyGen.fst.checked",
"Spec.Frodo.KEM.Encaps.fst.checked",
"Spec.Frodo.Encode.fst.checked",
"prims.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.ByteSequence.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Spec.Frodo.KEM.Decaps.fst"
} | [
{
"abbrev": true,
"full_module": "Spec.Frodo.Lemmas",
"short_module": "FL"
},
{
"abbrev": true,
"full_module": "Spec.Frodo.KEM.KeyGen",
"short_module": "KG"
},
{
"abbrev": true,
"full_module": "Spec.Matrix",
"short_module": "Matrix"
},
{
"abbrev": true,
"full_module": "Lib.Sequence",
"short_module": "LSeq"
},
{
"abbrev": false,
"full_module": "Spec.Frodo.Sample",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec.Frodo.Pack",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec.Frodo.Encode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec.Frodo.KEM.Encaps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec.Frodo.Params",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec.Matrix",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.ByteSequence",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.Sequence",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.IntTypes",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec.Frodo.KEM",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec.Frodo.KEM",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 0,
"initial_ifuel": 0,
"max_fuel": 0,
"max_ifuel": 0,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
a: Spec.Frodo.Params.frodo_alg ->
gen_a: Spec.Frodo.Params.frodo_gen_a ->
mu_decode: Lib.ByteSequence.lbytes (Spec.Frodo.Params.bytes_mu a) ->
sk: Lib.ByteSequence.lbytes (Spec.Frodo.Params.crypto_secretkeybytes a) ->
sp_matrix: Spec.Matrix.matrix Spec.Frodo.Params.params_nbar (Spec.Frodo.Params.params_n a) ->
ep_matrix: Spec.Matrix.matrix Spec.Frodo.Params.params_nbar (Spec.Frodo.Params.params_n a) ->
epp_matrix: Spec.Matrix.matrix Spec.Frodo.Params.params_nbar Spec.Frodo.Params.params_nbar
-> Spec.Matrix.matrix Spec.Frodo.Params.params_nbar (Spec.Frodo.Params.params_n a) *
Spec.Matrix.matrix Spec.Frodo.Params.params_nbar Spec.Frodo.Params.params_nbar | Prims.Tot | [
"total"
] | [] | [
"Spec.Frodo.Params.frodo_alg",
"Spec.Frodo.Params.frodo_gen_a",
"Lib.ByteSequence.lbytes",
"Spec.Frodo.Params.bytes_mu",
"Spec.Frodo.Params.crypto_secretkeybytes",
"Spec.Matrix.matrix",
"Spec.Frodo.Params.params_nbar",
"Spec.Frodo.Params.params_n",
"FStar.Pervasives.Native.Mktuple2",
"Lib.Sequence.lseq",
"Lib.IntTypes.int_t",
"Lib.IntTypes.U16",
"Lib.IntTypes.SEC",
"Prims.op_Multiply",
"Prims.l_Forall",
"Prims.nat",
"Prims.b2t",
"Prims.op_LessThanOrEqual",
"Prims.op_Subtraction",
"Prims.pow2",
"Prims.l_and",
"Prims.op_LessThan",
"Prims.eq2",
"Prims.int",
"Lib.IntTypes.v",
"Spec.Matrix.mget",
"Prims.op_Modulus",
"Spec.Frodo.Params.params_logq",
"Spec.Matrix.mod_pow2",
"Spec.Frodo.KEM.Encaps.frodo_mul_add_sb_plus_e_plus_mu",
"Spec.Frodo.KEM.Encaps.frodo_mul_add_sa_plus_e",
"Lib.IntTypes.U8",
"Spec.Frodo.Params.crypto_publickeybytes",
"Spec.Frodo.Params.bytes_seed_a",
"FStar.Seq.Base.seq",
"Lib.Sequence.to_seq",
"FStar.Seq.Base.slice",
"Prims.op_Addition",
"Prims.l_or",
"FStar.Seq.Base.index",
"Lib.Sequence.index",
"Lib.Sequence.sub",
"Lib.IntTypes.uint_t",
"Spec.Frodo.Params.crypto_bytes",
"FStar.Pervasives.Native.tuple2"
] | [] | false | false | false | false | false | let get_bpp_cp_matrices_ a gen_a mu_decode sk sp_matrix ep_matrix epp_matrix =
| let pk = LSeq.sub sk (crypto_bytes a) (crypto_publickeybytes a) in
let seed_a = LSeq.sub pk 0 bytes_seed_a in
let b = LSeq.sub pk bytes_seed_a (crypto_publickeybytes a - bytes_seed_a) in
let bpp_matrix = frodo_mul_add_sa_plus_e a gen_a seed_a sp_matrix ep_matrix in
let cp_matrix = frodo_mul_add_sb_plus_e_plus_mu a mu_decode b sp_matrix epp_matrix in
let bpp_matrix = mod_pow2 (params_logq a) bpp_matrix in
let cp_matrix = mod_pow2 (params_logq a) cp_matrix in
bpp_matrix, cp_matrix | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Pshufd | val va_quick_Pshufd (dst src: va_operand_xmm) (permutation: nat8)
: (va_quickCode unit (va_code_Pshufd dst src permutation)) | val va_quick_Pshufd (dst src: va_operand_xmm) (permutation: nat8)
: (va_quickCode unit (va_code_Pshufd dst src permutation)) | let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 57,
"end_line": 812,
"start_col": 0,
"start_line": 809
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
src: Vale.X64.Decls.va_operand_xmm ->
permutation: Vale.X64.Memory.nat8
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_Pshufd dst src permutation) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Memory.nat8",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Pshufd",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Pshufd",
"Vale.X64.InsVector.va_wpProof_Pshufd",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Pshufd (dst src: va_operand_xmm) (permutation: nat8)
: (va_quickCode unit (va_code_Pshufd dst src permutation)) =
| (va_QProc (va_code_Pshufd dst src permutation)
([va_mod_xmm dst])
(va_wp_Pshufd dst src permutation)
(va_wpProof_Pshufd dst src permutation)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Pextrq | val va_quick_Pextrq (dst: va_operand_dst_opr64) (src: va_operand_xmm) (index: nat8)
: (va_quickCode unit (va_code_Pextrq dst src index)) | val va_quick_Pextrq (dst: va_operand_dst_opr64) (src: va_operand_xmm) (index: nat8)
: (va_quickCode unit (va_code_Pextrq dst src index)) | let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 38,
"end_line": 898,
"start_col": 0,
"start_line": 895
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_dst_opr64 ->
src: Vale.X64.Decls.va_operand_xmm ->
index: Vale.X64.Memory.nat8
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_Pextrq dst src index) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_dst_opr64",
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Memory.nat8",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Pextrq",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_dst_opr64",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Pextrq",
"Vale.X64.InsVector.va_wpProof_Pextrq",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Pextrq (dst: va_operand_dst_opr64) (src: va_operand_xmm) (index: nat8)
: (va_quickCode unit (va_code_Pextrq dst src index)) =
| (va_QProc (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst])
(va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_Pop | val va_wp_Pop (dst: va_operand_dst_opr64) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Pop (dst: va_operand_dst_opr64) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 46,
"end_line": 78,
"start_col": 0,
"start_line": 66
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_dst_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_dst_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Prims.b2t",
"Vale.X64.Decls.va_is_dst_dst_opr64",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.Stack_i.valid_src_stack64",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Decls.va_get_stack",
"Vale.X64.Stack_i.valid_taint_stack64",
"Vale.Arch.HeapTypes_s.Public",
"Vale.X64.Decls.va_get_stackTaint",
"Prims.op_GreaterThanOrEqual",
"Prims.op_Subtraction",
"Vale.X64.Stack_i.init_rsp",
"Prims.op_LessThanOrEqual",
"Prims.op_Addition",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_dst_opr64",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.nat64",
"Vale.X64.Decls.va_eval_dst_opr64",
"Vale.X64.Stack_i.load_stack64",
"Prims.int",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.free_stack64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64",
"Vale.X64.Decls.va_upd_operand_dst_opr64"
] | [] | false | false | false | true | true | let va_wp_Pop (dst: va_operand_dst_opr64) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
(forall (va_x_dst: va_value_dst_opr64) (va_x_rsp: nat64) (va_x_stack: vale_stack).
let va_sM =
va_upd_stack va_x_stack
(va_upd_reg64 rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0))
in
va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\
va_get_stack va_sM ==
Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8)
(va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==>
va_k va_sM (()))) | false |
Hacl.Impl.RSAPSS.Keys.fst | Hacl.Impl.RSAPSS.Keys.new_rsapss_load_pkey_st | val new_rsapss_load_pkey_st : t: Hacl.Bignum.Definitions.limb_t ->
ke: Hacl.Bignum.Exponentiation.exp t ->
modBits: Lib.IntTypes.size_t
-> Type0 | let new_rsapss_load_pkey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
r:HS.rid
-> eBits:size_t
-> nb:lbuffer uint8 (blocks0 modBits 8ul)
-> eb:lbuffer uint8 (blocks0 eBits 8ul) ->
ST (B.buffer (limb t))
(requires fun h ->
blocks0 modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ ST.is_eternal_region r)
(ensures fun h0 pkey h1 -> B.(modifies loc_none h0 h1) /\
not (B.g_is_null pkey) ==> (
LS.pkey_len_pre t (v modBits) (v eBits) /\
B.(fresh_loc (loc_buffer pkey) h0 h1) /\
B.freeable pkey /\
B.(loc_includes (loc_region_only false r) (loc_buffer pkey)) /\
(let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let pkeyLen = nLen +! nLen +! eLen in
B.len pkey == pkeyLen /\
(let pkey = pkey <: lbignum t pkeyLen in
LS.rsapss_load_pkey_post (v modBits) (v eBits)
(as_seq h0 nb) (as_seq h0 eb) (as_seq h1 pkey))))) | {
"file_name": "code/rsapss/Hacl.Impl.RSAPSS.Keys.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 51,
"end_line": 325,
"start_col": 0,
"start_line": 302
} | module Hacl.Impl.RSAPSS.Keys
open FStar.HyperStack
open FStar.HyperStack.ST
open FStar.Mul
open Lib.IntTypes
open Lib.Buffer
open Hacl.Bignum.Definitions
module ST = FStar.HyperStack.ST
module B = LowStar.Buffer
module HS = FStar.HyperStack
module LSeq = Lib.Sequence
module LS = Hacl.Spec.RSAPSS
module BM = Hacl.Bignum.Montgomery
module BN = Hacl.Bignum
module BB = Hacl.Spec.Bignum.Base
module BE = Hacl.Bignum.Exponentiation
#reset-options "--z3rlimit 50 --fuel 0 --ifuel 0"
inline_for_extraction noextract
val rsapss_check_pkey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t ->
res:bool{res <==> LS.pkey_len_pre t (v modBits) (v eBits)}
let rsapss_check_pkey_len #t modBits eBits =
if 1ul <. modBits && 0ul <. eBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
nLen <=. 0xfffffffful /. (2ul *! bits) && eLen <=. 0xfffffffful /. bits &&
nLen +! nLen <=. 0xfffffffful -. eLen end
else false
inline_for_extraction noextract
val rsapss_check_skey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t
-> dBits:size_t ->
res:bool{res <==> LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
let rsapss_check_skey_len #t modBits eBits dBits =
if rsapss_check_pkey_len #t modBits eBits && 0ul <. dBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
dLen <=. 0xfffffffful /. bits &&
2ul *! nLen <=. 0xfffffffful -! eLen -! dLen end
else false
inline_for_extraction noextract
let bn_check_num_bits_st (t:limb_t) =
bs:size_t{0 < v bs /\ bits t * v (blocks bs (size (bits t))) <= max_size_t}
-> b:lbignum t (blocks bs (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h b)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.bn_check_num_bits (v bs) (as_seq h0 b))
inline_for_extraction noextract
val bn_check_num_bits: #t:limb_t -> bn_check_num_bits_st t
let bn_check_num_bits #t bs b =
[@inline_let] let bits = size (bits t) in
let bLen = blocks bs bits in
if bs =. bits *! bLen then ones t SEC else BN.bn_lt_pow2_mask bLen b bs
inline_for_extraction noextract
let rsapss_check_modulus_st (t:limb_t) =
modBits:size_t{0 < v modBits /\ bits t * v (blocks modBits (size (bits t))) <= max_size_t}
-> n:lbignum t (blocks modBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h n)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_modulus (v modBits) (as_seq h0 n))
inline_for_extraction noextract
val rsapss_check_modulus:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_modulus_st t
let rsapss_check_modulus #t bn_check_num_bits modBits n =
let nLen = blocks modBits (size (bits t)) in
let bits0 = BN.bn_is_odd nLen n in
let m0 = uint #t 0 -. bits0 in
let m1 = BN.bn_gt_pow2_mask nLen n (modBits -! 1ul) in
let m2 = bn_check_num_bits modBits n in
m0 &. (m1 &. m2)
inline_for_extraction noextract
let rsapss_check_exponent_st (t:limb_t) =
eBits:size_t{0 < v eBits /\ bits t * v (blocks eBits (size (bits t))) <= max_size_t}
-> e:lbignum t (blocks eBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h e)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_exponent (v eBits) (as_seq h0 e))
inline_for_extraction noextract
val rsapss_check_exponent:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_exponent_st t
let rsapss_check_exponent #t bn_check_num_bits eBits e =
let eLen = blocks eBits (size (bits t)) in
let m0 = BN.bn_is_zero_mask eLen e in
let m1 = bn_check_num_bits eBits e in
(lognot m0) &. m1
inline_for_extraction noextract
class rsapss_checks (t:limb_t) = {
check_num_bits: bn_check_num_bits_st t;
check_modulus: rsapss_check_modulus_st t;
check_exponent: rsapss_check_exponent_st t;
}
[@CInline]
let check_num_bits_u32 : bn_check_num_bits_st U32 =
bn_check_num_bits
[@CInline]
let check_modulus_u32 : rsapss_check_modulus_st U32 =
rsapss_check_modulus check_num_bits_u32
[@CInline]
let check_exponent_u32 : rsapss_check_exponent_st U32 =
rsapss_check_exponent check_num_bits_u32
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint32: rsapss_checks U32
let mk_runtime_rsapss_checks_uint32 = {
check_num_bits = check_num_bits_u32;
check_modulus = check_modulus_u32;
check_exponent = check_exponent_u32;
}
[@CInline]
let check_num_bits_u64 : bn_check_num_bits_st U64 =
bn_check_num_bits
[@CInline]
let check_modulus_u64 : rsapss_check_modulus_st U64 =
rsapss_check_modulus check_num_bits_u64
[@CInline]
let check_exponent_u64 : rsapss_check_exponent_st U64 =
rsapss_check_exponent check_num_bits_u64
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint64: rsapss_checks U64
let mk_runtime_rsapss_checks_uint64 = {
check_num_bits = check_num_bits_u64;
check_modulus = check_modulus_u64;
check_exponent = check_exponent_u64;
}
inline_for_extraction noextract
let mk_runtime_rsapss_checks (#t:limb_t) : rsapss_checks t =
match t with
| U32 -> mk_runtime_rsapss_checks_uint32
| U64 -> mk_runtime_rsapss_checks_uint64
//pkey = [n; r2; e]
inline_for_extraction noextract
let rsapss_load_pkey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t{LS.pkey_len_pre t (v modBits) (v eBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> pkey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h pkey /\
disjoint pkey nb /\ disjoint pkey eb)
(ensures fun h0 b h1 -> modifies (loc pkey) h0 h1 /\
(b, as_seq h1 pkey) == LS.rsapss_load_pkey (v modBits) (v eBits) (as_seq h0 nb) (as_seq h0 eb))
inline_for_extraction noextract
val rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
rsapss_load_pkey_st t ke modBits
let rsapss_load_pkey #t ke modBits kc eBits nb eb pkey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
assert (v ((modBits -! 1ul) /. bits) < v nLen);
LS.blocks_bits_lemma t (v modBits);
assert (v (blocks nbLen numb) == v nLen);
LS.blocks_bits_lemma t (v eBits);
assert (v (blocks ebLen numb) == v eLen);
let n = sub pkey 0ul nLen in
let r2 = sub pkey nLen nLen in
let e = sub pkey (nLen +! nLen) eLen in
BN.bn_from_bytes_be nbLen nb n;
ke.BE.precompr2 (modBits -! 1ul) n r2;
BN.bn_from_bytes_be ebLen eb e;
let h1 = ST.get () in
LSeq.lemma_concat3 (v nLen) (as_seq h1 n)
(v nLen) (as_seq h1 r2) (v eLen) (as_seq h1 e) (as_seq h1 pkey);
let m0 = kc.check_modulus modBits n in
let m1 = kc.check_exponent eBits e in
let m = m0 &. m1 in
BB.unsafe_bool_of_limb #t m
#set-options "--z3rlimit 300"
//skey = [pkey; d]
inline_for_extraction noextract
let rsapss_load_skey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t
-> dBits:size_t{LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> db:lbuffer uint8 (blocks dBits 8ul)
-> skey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t)) +! blocks dBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h db /\ live h skey /\
disjoint skey nb /\ disjoint skey eb /\ disjoint skey db)
(ensures fun h0 b h1 -> modifies (loc skey) h0 h1 /\
(b, as_seq h1 skey) == LS.rsapss_load_skey (v modBits) (v eBits) (v dBits)
(as_seq h0 nb) (as_seq h0 eb) (as_seq h0 db))
inline_for_extraction noextract
val rsapss_load_skey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t
-> rsapss_load_pkey:rsapss_load_pkey_st t ke modBits ->
rsapss_load_skey_st t ke modBits
let rsapss_load_skey #t ke modBits kc rsapss_load_pkey eBits dBits nb eb db skey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let dbLen = blocks dBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
let pkeyLen = nLen +! nLen +! eLen in
let skeyLen = pkeyLen +! eLen in
LS.blocks_bits_lemma t (v dBits);
assert (v (blocks dbLen numb) == v dLen);
let pkey = sub skey 0ul pkeyLen in
let d = sub skey pkeyLen dLen in
let b = rsapss_load_pkey eBits nb eb pkey in
BN.bn_from_bytes_be dbLen db d;
let h1 = ST.get () in
LSeq.lemma_concat2 (v pkeyLen) (as_seq h1 pkey) (v dLen) (as_seq h1 d) (as_seq h1 skey);
let m1 = kc.check_exponent dBits d in
let b1 = b && BB.unsafe_bool_of_limb m1 in
b1 | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"LowStar.Monotonic.Buffer.fsti.checked",
"LowStar.Buffer.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Buffer.fsti.checked",
"Hacl.Spec.RSAPSS.fst.checked",
"Hacl.Spec.Bignum.Base.fst.checked",
"Hacl.Bignum.Montgomery.fsti.checked",
"Hacl.Bignum.Exponentiation.fsti.checked",
"Hacl.Bignum.Definitions.fst.checked",
"Hacl.Bignum.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Tactics.Typeclasses.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.HyperStack.ST.fsti.checked",
"FStar.HyperStack.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Impl.RSAPSS.Keys.fst"
} | [
{
"abbrev": true,
"full_module": "Hacl.Bignum.Exponentiation",
"short_module": "BE"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.Bignum.Base",
"short_module": "BB"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum",
"short_module": "BN"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum.Montgomery",
"short_module": "BM"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.RSAPSS",
"short_module": "LS"
},
{
"abbrev": true,
"full_module": "Lib.Sequence",
"short_module": "LSeq"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack.ST",
"short_module": "ST"
},
{
"abbrev": false,
"full_module": "Hacl.Bignum.Definitions",
"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.ST",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.HyperStack",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 0,
"initial_ifuel": 0,
"max_fuel": 0,
"max_ifuel": 0,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 300,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
t: Hacl.Bignum.Definitions.limb_t ->
ke: Hacl.Bignum.Exponentiation.exp t ->
modBits: Lib.IntTypes.size_t
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Hacl.Bignum.Definitions.limb_t",
"Hacl.Bignum.Exponentiation.exp",
"Lib.IntTypes.size_t",
"FStar.Monotonic.HyperHeap.rid",
"Lib.Buffer.lbuffer",
"Lib.IntTypes.uint8",
"Hacl.Bignum.Definitions.blocks0",
"FStar.UInt32.__uint_to_t",
"LowStar.Buffer.buffer",
"Hacl.Bignum.Definitions.limb",
"FStar.Monotonic.HyperStack.mem",
"Prims.l_and",
"Prims.eq2",
"Prims.l_or",
"Prims.int",
"Lib.IntTypes.range",
"Lib.IntTypes.U32",
"Prims.b2t",
"Prims.op_GreaterThan",
"Prims.op_LessThanOrEqual",
"Lib.IntTypes.max_size_t",
"Lib.IntTypes.v",
"Lib.IntTypes.PUB",
"FStar.Mul.op_Star",
"Lib.IntTypes.size",
"Lib.IntTypes.bits",
"Hacl.Spec.Bignum.Definitions.blocks0",
"Prims.op_LessThan",
"Hacl.Bignum.__proj__Mkbn__item__len",
"Hacl.Bignum.Exponentiation.__proj__Mkexp__item__bn",
"Lib.Buffer.live",
"Lib.Buffer.MUT",
"FStar.HyperStack.ST.is_eternal_region",
"Prims.l_imp",
"LowStar.Monotonic.Buffer.modifies",
"LowStar.Monotonic.Buffer.loc_none",
"Prims.op_Negation",
"LowStar.Monotonic.Buffer.g_is_null",
"LowStar.Buffer.trivial_preorder",
"Hacl.Spec.RSAPSS.pkey_len_pre",
"LowStar.Monotonic.Buffer.fresh_loc",
"LowStar.Monotonic.Buffer.loc_buffer",
"LowStar.Monotonic.Buffer.freeable",
"LowStar.Monotonic.Buffer.loc_includes",
"LowStar.Monotonic.Buffer.loc_region_only",
"FStar.UInt32.t",
"LowStar.Monotonic.Buffer.len",
"Hacl.Spec.RSAPSS.rsapss_load_pkey_post",
"Lib.Buffer.as_seq",
"Hacl.Bignum.Definitions.lbignum",
"Lib.IntTypes.int_t",
"Lib.IntTypes.op_Plus_Bang",
"Prims.op_Subtraction",
"Prims.pow2",
"Prims.op_Multiply",
"Hacl.Spec.Bignum.Definitions.blocks",
"Hacl.Bignum.Definitions.blocks"
] | [] | false | false | false | false | true | let new_rsapss_load_pkey_st (t: limb_t) (ke: BE.exp t) (modBits: size_t) =
|
r: HS.rid ->
eBits: size_t ->
nb: lbuffer uint8 (blocks0 modBits 8ul) ->
eb: lbuffer uint8 (blocks0 eBits 8ul)
-> ST (B.buffer (limb t))
(requires
fun h ->
blocks0 modBits (size (bits t)) == ke.BE.bn.BN.len /\ live h nb /\ live h eb /\
ST.is_eternal_region r)
(ensures
fun h0 pkey h1 ->
B.(modifies loc_none h0 h1) /\ not (B.g_is_null pkey) ==>
(LS.pkey_len_pre t (v modBits) (v eBits) /\ B.(fresh_loc (loc_buffer pkey) h0 h1) /\
B.freeable pkey /\ B.(loc_includes (loc_region_only false r) (loc_buffer pkey)) /\
(let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let pkeyLen = nLen +! nLen +! eLen in
B.len pkey == pkeyLen /\
(let pkey = pkey <: lbignum t pkeyLen in
LS.rsapss_load_pkey_post (v modBits)
(v eBits)
(as_seq h0 nb)
(as_seq h0 eb)
(as_seq h1 pkey))))) | false |
|
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_Push_Secret | val va_wp_Push_Secret
(src: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Push_Secret
(src: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 84,
"end_line": 205,
"start_col": 0,
"start_line": 195
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
src: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Prims.b2t",
"Vale.X64.Decls.va_is_src_reg_opr64",
"Vale.X64.Decls.va_get_ok",
"Prims.op_LessThanOrEqual",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Stack_i.init_rsp",
"Vale.X64.Decls.va_get_stack",
"Prims.op_Subtraction",
"Prims.l_Forall",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Vale.X64.Memory.memtaint",
"Prims.l_imp",
"Prims.eq2",
"Prims.int",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.store_stack64",
"Vale.X64.Decls.va_eval_reg_opr64",
"Vale.X64.Decls.va_get_stackTaint",
"Vale.X64.Stack_i.store_taint_stack64",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stackTaint",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64"
] | [] | false | false | false | true | true | let va_wp_Push_Secret
(src: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\
(forall (va_x_rsp: nat64) (va_x_stack: vale_stack) (va_x_stackTaint: memtaint).
let va_sM =
va_upd_stackTaint va_x_stackTaint
(va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0))
in
va_get_ok va_sM /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\
va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM)
(va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\
va_get_stackTaint va_sM ==
Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_sM)
Secret
(va_get_stackTaint va_s0) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_InitPshufbDupMask | val va_wp_InitPshufbDupMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_InitPshufbDupMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123 ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 89,
"end_line": 1545,
"start_col": 0,
"start_line": 1539
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (())))
val va_wpProof_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbStableMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode
unit (va_code_InitPshufbStableMask dst tmp)) =
(va_QProc (va_code_InitPshufbStableMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbStableMask dst tmp) (va_wpProof_InitPshufbStableMask dst tmp))
//--
//-- InitPshufbDupMask
val va_code_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbDupMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbDupMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Flags.t",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.four",
"Vale.Def.Types_s.nat32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Words_s.Mkfour",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_flags",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_InitPshufbDupMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst: va_value_xmm) (va_x_tmp: va_value_reg_opr64) (va_x_efl: Vale.X64.Flags.t).
let va_sM =
va_upd_flags va_x_efl
(va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))
in
va_get_ok va_sM /\
va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123 ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_InitPshufbMask | val va_wp_InitPshufbMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_InitPshufbMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 84,
"end_line": 1471,
"start_col": 0,
"start_line": 1465
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Flags.t",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.four",
"Vale.Def.Types_s.nat32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Words_s.Mkfour",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_flags",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_InitPshufbMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst: va_value_xmm) (va_x_tmp: va_value_reg_opr64) (va_x_efl: Vale.X64.Flags.t).
let va_sM =
va_upd_flags va_x_efl
(va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))
in
va_get_ok va_sM /\
va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Pcmpeqd | val va_quick_Pcmpeqd (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Pcmpeqd dst src)) | val va_quick_Pcmpeqd (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Pcmpeqd dst src)) | let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 33,
"end_line": 861,
"start_col": 0,
"start_line": 858
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_Pcmpeqd dst src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Pcmpeqd",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Pcmpeqd",
"Vale.X64.InsVector.va_wpProof_Pcmpeqd",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Pcmpeqd (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Pcmpeqd dst src)) =
| (va_QProc (va_code_Pcmpeqd dst src)
([va_mod_xmm dst])
(va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_Push | val va_wp_Push (src: va_operand_reg_opr64) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Push (src: va_operand_reg_opr64) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 84,
"end_line": 119,
"start_col": 0,
"start_line": 109
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
src: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Prims.b2t",
"Vale.X64.Decls.va_is_src_reg_opr64",
"Vale.X64.Decls.va_get_ok",
"Prims.op_LessThanOrEqual",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Stack_i.init_rsp",
"Vale.X64.Decls.va_get_stack",
"Prims.op_Subtraction",
"Prims.l_Forall",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Vale.X64.Memory.memtaint",
"Prims.l_imp",
"Prims.eq2",
"Prims.int",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.store_stack64",
"Vale.X64.Decls.va_eval_reg_opr64",
"Vale.X64.Decls.va_get_stackTaint",
"Vale.X64.Stack_i.store_taint_stack64",
"Vale.Arch.HeapTypes_s.Public",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stackTaint",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64"
] | [] | false | false | false | true | true | let va_wp_Push (src: va_operand_reg_opr64) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\
(forall (va_x_rsp: nat64) (va_x_stack: vale_stack) (va_x_stackTaint: memtaint).
let va_sM =
va_upd_stackTaint va_x_stackTaint
(va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0))
in
va_get_ok va_sM /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\
va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM)
(va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\
va_get_stackTaint va_sM ==
Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_sM)
Public
(va_get_stackTaint va_s0) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_XmmEqual | val va_wp_XmmEqual (x1 x2: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_XmmEqual (x1 x2: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_XmmEqual (x1:va_operand_xmm) (x2:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm x1 va_s0 /\ va_is_src_xmm x2 va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_x1:va_value_xmm) (va_x_rdx:nat64) (va_x_rax:nat64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_reg64 rRax va_x_rax (va_upd_reg64 rRdx va_x_rdx
(va_upd_operand_xmm x1 va_x_x1 va_s0))) in va_get_ok va_sM /\ va_if (va_eval_xmm va_s0 x1 =
va_eval_xmm va_s0 x2) (fun _ -> va_get_reg64 rRax va_sM = 0) (fun _ -> va_get_reg64 rRax va_sM
> 0) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 30,
"end_line": 1619,
"start_col": 0,
"start_line": 1612
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (())))
val va_wpProof_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbStableMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode
unit (va_code_InitPshufbStableMask dst tmp)) =
(va_QProc (va_code_InitPshufbStableMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbStableMask dst tmp) (va_wpProof_InitPshufbStableMask dst tmp))
//--
//-- InitPshufbDupMask
val va_code_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbDupMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbDupMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbDupMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbDupMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbDupMask dst tmp)) =
(va_QProc (va_code_InitPshufbDupMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbDupMask dst tmp) (va_wpProof_InitPshufbDupMask dst tmp))
//--
//-- InitPshufb64Mask
val va_code_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufb64Mask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufb64Mask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufb64Mask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufb64Mask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufb64Mask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufb64Mask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufb64Mask dst tmp)) =
(va_QProc (va_code_InitPshufb64Mask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufb64Mask dst tmp) (va_wpProof_InitPshufb64Mask dst tmp))
//--
//-- XmmEqual
val va_code_XmmEqual : x1:va_operand_xmm -> x2:va_operand_xmm -> Tot va_code
val va_codegen_success_XmmEqual : x1:va_operand_xmm -> x2:va_operand_xmm -> Tot va_pbool
val va_lemma_XmmEqual : va_b0:va_code -> va_s0:va_state -> x1:va_operand_xmm -> x2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_XmmEqual x1 x2) va_s0 /\ va_is_dst_xmm x1 va_s0 /\
va_is_src_xmm x2 va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (if
(va_eval_xmm va_s0 x1 = va_eval_xmm va_s0 x2) then (va_get_reg64 rRax va_sM = 0) else
(va_get_reg64 rRax va_sM > 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_reg64
rRax va_sM (va_update_reg64 rRdx va_sM (va_update_ok va_sM (va_update_operand_xmm x1 va_sM
va_s0))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
x1: Vale.X64.Decls.va_operand_xmm ->
x2: Vale.X64.Decls.va_operand_xmm ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_src_xmm",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Memory.nat64",
"Vale.X64.Flags.t",
"Prims.l_imp",
"Vale.X64.Decls.va_if",
"Prims.bool",
"Prims.op_Equality",
"Vale.X64.Decls.quad32",
"Vale.X64.Decls.va_eval_xmm",
"Prims.int",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRax",
"Prims.l_not",
"Prims.op_GreaterThan",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_flags",
"Vale.X64.Decls.va_upd_reg64",
"Vale.X64.Machine_s.rRdx",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_XmmEqual (x1 x2: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm x1 va_s0 /\ va_is_src_xmm x2 va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_x1: va_value_xmm) (va_x_rdx: nat64) (va_x_rax: nat64) (va_x_efl: Vale.X64.Flags.t).
let va_sM =
va_upd_flags va_x_efl
(va_upd_reg64 rRax
va_x_rax
(va_upd_reg64 rRdx va_x_rdx (va_upd_operand_xmm x1 va_x_x1 va_s0)))
in
va_get_ok va_sM /\
va_if (va_eval_xmm va_s0 x1 = va_eval_xmm va_s0 x2)
(fun _ -> va_get_reg64 rRax va_sM = 0)
(fun _ -> va_get_reg64 rRax va_sM > 0) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Pinsrd | val va_quick_Pinsrd (dst: va_operand_xmm) (src: va_operand_opr64) (index: nat8)
: (va_quickCode unit (va_code_Pinsrd dst src index)) | val va_quick_Pinsrd (dst: va_operand_xmm) (src: va_operand_opr64) (index: nat8)
: (va_quickCode unit (va_code_Pinsrd dst src index)) | let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 38,
"end_line": 936,
"start_col": 0,
"start_line": 933
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
src: Vale.X64.Decls.va_operand_opr64 ->
index: Vale.X64.Memory.nat8
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_Pinsrd dst src index) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_opr64",
"Vale.X64.Memory.nat8",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Pinsrd",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Pinsrd",
"Vale.X64.InsVector.va_wpProof_Pinsrd",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Pinsrd (dst: va_operand_xmm) (src: va_operand_opr64) (index: nat8)
: (va_quickCode unit (va_code_Pinsrd dst src index)) =
| (va_QProc (va_code_Pinsrd dst src index)
([va_mod_xmm dst])
(va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_Load64_stack | val va_wp_Load64_stack
(dst: va_operand_dst_opr64)
(src: va_operand_reg_opr64)
(offset: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Load64_stack
(dst: va_operand_dst_opr64)
(src: va_operand_reg_opr64)
(offset: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 25,
"end_line": 248,
"start_col": 0,
"start_line": 240
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_dst_opr64 ->
src: Vale.X64.Decls.va_operand_reg_opr64 ->
offset: Prims.int ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_dst_opr64",
"Vale.X64.Decls.va_operand_reg_opr64",
"Prims.int",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Prims.b2t",
"Vale.X64.Decls.va_is_dst_dst_opr64",
"Vale.X64.Decls.va_is_src_reg_opr64",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.Stack_i.valid_src_stack64",
"Prims.op_Addition",
"Vale.X64.Decls.va_eval_reg_opr64",
"Vale.X64.Decls.va_get_stack",
"Vale.X64.Stack_i.valid_taint_stack64",
"Vale.Arch.HeapTypes_s.Public",
"Vale.X64.Decls.va_get_stackTaint",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_dst_opr64",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.nat64",
"Vale.X64.Decls.va_eval_dst_opr64",
"Vale.X64.Stack_i.load_stack64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_operand_dst_opr64"
] | [] | false | false | false | true | true | let va_wp_Load64_stack
(dst: va_operand_dst_opr64)
(src: va_operand_reg_opr64)
(offset: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset)
Public
(va_get_stackTaint va_s0) /\
(forall (va_x_dst: va_value_dst_opr64).
let va_sM = va_upd_operand_dst_opr64 dst va_x_dst va_s0 in
va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst ==
Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_InitPshufb64Mask | val va_wp_InitPshufb64Mask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_InitPshufb64Mask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_InitPshufb64Mask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123 ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 84,
"end_line": 1582,
"start_col": 0,
"start_line": 1576
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (())))
val va_wpProof_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbStableMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode
unit (va_code_InitPshufbStableMask dst tmp)) =
(va_QProc (va_code_InitPshufbStableMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbStableMask dst tmp) (va_wpProof_InitPshufbStableMask dst tmp))
//--
//-- InitPshufbDupMask
val va_code_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbDupMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbDupMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbDupMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbDupMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbDupMask dst tmp)) =
(va_QProc (va_code_InitPshufbDupMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbDupMask dst tmp) (va_wpProof_InitPshufbDupMask dst tmp))
//--
//-- InitPshufb64Mask
val va_code_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufb64Mask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufb64Mask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Flags.t",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.four",
"Vale.Def.Types_s.nat32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Words_s.Mkfour",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_flags",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_InitPshufb64Mask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst: va_value_xmm) (va_x_tmp: va_value_reg_opr64) (va_x_efl: Vale.X64.Flags.t).
let va_sM =
va_upd_flags va_x_efl
(va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))
in
va_get_ok va_sM /\
va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123 ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_PshufbStable | val va_quick_PshufbStable (dst src: va_operand_xmm)
: (va_quickCode unit (va_code_PshufbStable dst src)) | val va_quick_PshufbStable (dst src: va_operand_xmm)
: (va_quickCode unit (va_code_PshufbStable dst src)) | let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 43,
"end_line": 667,
"start_col": 0,
"start_line": 664
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_PshufbStable dst src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_PshufbStable",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_PshufbStable",
"Vale.X64.InsVector.va_wpProof_PshufbStable",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PshufbStable (dst src: va_operand_xmm)
: (va_quickCode unit (va_code_PshufbStable dst src)) =
| (va_QProc (va_code_PshufbStable dst src)
([va_Mod_flags; va_mod_xmm dst])
(va_wp_PshufbStable dst src)
(va_wpProof_PshufbStable dst src)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_Pop_Secret | val va_wp_Pop_Secret
(dst: va_operand_dst_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Pop_Secret
(dst: va_operand_dst_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 46,
"end_line": 163,
"start_col": 0,
"start_line": 151
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_dst_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_dst_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Prims.b2t",
"Vale.X64.Decls.va_is_dst_dst_opr64",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.Stack_i.valid_src_stack64",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Decls.va_get_stack",
"Vale.X64.Stack_i.valid_taint_stack64",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.X64.Decls.va_get_stackTaint",
"Prims.op_GreaterThanOrEqual",
"Prims.op_Subtraction",
"Vale.X64.Stack_i.init_rsp",
"Prims.op_LessThanOrEqual",
"Prims.op_Addition",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_dst_opr64",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.nat64",
"Vale.X64.Decls.va_eval_dst_opr64",
"Vale.X64.Stack_i.load_stack64",
"Prims.int",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.free_stack64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64",
"Vale.X64.Decls.va_upd_operand_dst_opr64"
] | [] | false | false | false | true | true | let va_wp_Pop_Secret
(dst: va_operand_dst_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
(forall (va_x_dst: va_value_dst_opr64) (va_x_rsp: nat64) (va_x_stack: vale_stack).
let va_sM =
va_upd_stack va_x_stack
(va_upd_reg64 rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0))
in
va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\
va_get_stack va_sM ==
Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8)
(va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_PinsrdImm | val va_wp_PinsrdImm
(dst: va_operand_xmm)
(immediate: nat32)
(index: nat8)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_PinsrdImm
(dst: va_operand_xmm)
(immediate: nat32)
(index: nat8)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 85,
"end_line": 963,
"start_col": 0,
"start_line": 957
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
immediate: Vale.X64.Memory.nat32 ->
index: Vale.X64.Memory.nat8 ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Memory.nat32",
"Vale.X64.Memory.nat8",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.op_LessThan",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Types_s.quad32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Types_s.insert_nat32",
"Prims.nat",
"Prims.l_or",
"Vale.Def.Words_s.pow2_32",
"Vale.Def.Words_s.pow2_64",
"Vale.X64.Decls.va_eval_reg_opr64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_PinsrdImm
(dst: va_operand_xmm)
(immediate: nat32)
(index: nat8)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\
(forall (va_x_dst: va_value_xmm) (va_x_tmp: va_value_reg_opr64).
let va_sM = va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in
va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index /\
va_eval_reg_opr64 va_sM tmp == immediate ==>
va_k va_sM (()))) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_PushXmm | val va_wp_PushXmm
(src: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_PushXmm
(src: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 16,
"end_line": 301,
"start_col": 0,
"start_line": 286
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
src: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_src_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.op_LessThanOrEqual",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Stack_i.init_rsp",
"Vale.X64.Decls.va_get_stack",
"Prims.op_Subtraction",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Vale.X64.Memory.memtaint",
"Prims.l_imp",
"Prims.eq2",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.store_stack64",
"Vale.X64.Decls.va_get_stackTaint",
"Vale.X64.Stack_i.store_taint_stack64",
"Vale.Arch.HeapTypes_s.Public",
"Prims.int",
"Vale.Def.Words_s.nat64",
"Vale.Arch.Types.hi64",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Arch.Types.lo64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stackTaint",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64",
"Vale.X64.Decls.va_upd_operand_reg_opr64"
] | [] | false | false | false | true | true | let va_wp_PushXmm
(src: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp: va_value_reg_opr64)
(va_x_rsp: nat64)
(va_x_stack: vale_stack)
(va_x_stackTaint: memtaint).
let va_sM =
va_upd_stackTaint va_x_stackTaint
(va_upd_stack va_x_stack
(va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0)))
in
va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in
let src_hi = Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in
va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16)
src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM ==
Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public
(Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8)
Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_Pinsrq | val va_wp_Pinsrq
(dst: va_operand_xmm)
(src: va_operand_opr64)
(index: nat8)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Pinsrq
(dst: va_operand_xmm)
(src: va_operand_opr64)
(index: nat8)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 62,
"end_line": 999,
"start_col": 0,
"start_line": 994
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
src: Vale.X64.Decls.va_operand_opr64 ->
index: Vale.X64.Memory.nat8 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_opr64",
"Vale.X64.Memory.nat8",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_src_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.op_LessThan",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Types_s.quad32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Types_s.insert_nat64",
"Vale.X64.Decls.va_eval_opr64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_Pinsrq
(dst: va_operand_xmm)
(src: va_operand_opr64)
(index: nat8)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2 /\
(forall (va_x_dst: va_value_xmm).
let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\
va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_sM src) index ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_Pinsrd | val va_wp_Pinsrd
(dst: va_operand_xmm)
(src: va_operand_opr64)
(index: nat8)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Pinsrd
(dst: va_operand_xmm)
(src: va_operand_opr64)
(index: nat8)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 16,
"end_line": 924,
"start_col": 0,
"start_line": 918
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
src: Vale.X64.Decls.va_operand_opr64 ->
index: Vale.X64.Memory.nat8 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_opr64",
"Vale.X64.Memory.nat8",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_src_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.op_LessThan",
"Vale.X64.Decls.va_eval_opr64",
"Vale.X64.Machine_s.pow2_32",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Types_s.quad32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Types_s.insert_nat32",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_Pinsrd
(dst: va_operand_xmm)
(src: va_operand_opr64)
(index: nat8)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\
(forall (va_x_dst: va_value_xmm).
let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\
va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_VPslldq4 | val va_quick_VPslldq4 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_VPslldq4 dst src)) | val va_quick_VPslldq4 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_VPslldq4 dst src)) | let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 34,
"end_line": 1088,
"start_col": 0,
"start_line": 1085
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_VPslldq4 dst src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_VPslldq4",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_VPslldq4",
"Vale.X64.InsVector.va_wpProof_VPslldq4",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_VPslldq4 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_VPslldq4 dst src)) =
| (va_QProc (va_code_VPslldq4 dst src)
([va_mod_xmm dst])
(va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_PinsrdImm | val va_quick_PinsrdImm
(dst: va_operand_xmm)
(immediate: nat32)
(index: nat8)
(tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) | val va_quick_PinsrdImm
(dst: va_operand_xmm)
(immediate: nat32)
(index: nat8)
(tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) | let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 93,
"end_line": 975,
"start_col": 0,
"start_line": 972
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
immediate: Vale.X64.Memory.nat32 ->
index: Vale.X64.Memory.nat8 ->
tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_PinsrdImm dst immediate index tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Memory.nat32",
"Vale.X64.Memory.nat8",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_PinsrdImm",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_PinsrdImm",
"Vale.X64.InsVector.va_wpProof_PinsrdImm",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PinsrdImm
(dst: va_operand_xmm)
(immediate: nat32)
(index: nat8)
(tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
| (va_QProc (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp)
(va_wpProof_PinsrdImm dst immediate index tmp)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_PopXmm | val va_wp_PopXmm
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(expected_xmm: quad32)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_PopXmm
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(expected_xmm: quad32)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 46,
"end_line": 359,
"start_col": 0,
"start_line": 342
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm src tmp) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm src tmp)) =
(va_QProc (va_code_PushXmm src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm src tmp) (va_wpProof_PushXmm src tmp))
//--
//-- PopXmm
val va_code_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PopXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm dst tmp) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
expected_xmm: Vale.X64.Decls.quad32 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.quad32",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Vale.X64.Stack_i.valid_src_stack64",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Decls.va_get_stack",
"Prims.op_Addition",
"Vale.X64.Stack_i.valid_taint_stack64",
"Vale.Arch.HeapTypes_s.Public",
"Vale.X64.Decls.va_get_stackTaint",
"Prims.eq2",
"Vale.Def.Words_s.nat64",
"Vale.Arch.Types.hi64",
"Vale.X64.Stack_i.load_stack64",
"Vale.Arch.Types.lo64",
"Prims.op_GreaterThanOrEqual",
"Prims.op_Subtraction",
"Vale.X64.Stack_i.init_rsp",
"Prims.op_LessThanOrEqual",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Prims.l_imp",
"Vale.X64.Decls.va_eval_xmm",
"Prims.int",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.free_stack64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_PopXmm
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(expected_xmm: quad32)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8)
Public
(va_get_stackTaint va_s0) /\
Vale.Arch.Types.hi64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
(forall (va_x_dst: va_value_xmm)
(va_x_tmp: va_value_reg_opr64)
(va_x_rsp: nat64)
(va_x_stack: vale_stack).
let va_sM =
va_upd_stack va_x_stack
(va_upd_reg64 rRsp
va_x_rsp
(va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0)))
in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == expected_xmm /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\
va_get_stack va_sM ==
Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_Pcmpeqd | val va_wp_Pcmpeqd (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Pcmpeqd (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 34,
"end_line": 849,
"start_col": 0,
"start_line": 836
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
src: Vale.X64.Decls.va_operand_xmm ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_src_xmm",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.four",
"Vale.Def.Types_s.nat32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Words_s.Mkfour",
"Vale.X64.Decls.va_if",
"Prims.int",
"Prims.op_Equality",
"Vale.Def.Words_s.__proj__Mkfour__item__lo0",
"Prims.l_not",
"Vale.Def.Words_s.__proj__Mkfour__item__lo1",
"Vale.Def.Words_s.__proj__Mkfour__item__hi2",
"Vale.Def.Words_s.__proj__Mkfour__item__hi3",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_Pcmpeqd (dst src: va_operand_xmm) (va_s0: va_state) (va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst: va_value_xmm).
let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\
va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> 4294967295)
(fun _ -> 0))
(va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst))
(fun _ -> 4294967295)
(fun _ -> 0))
(va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))
(fun _ -> 4294967295)
(fun _ -> 0))
(va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst))
(fun _ -> 4294967295)
(fun _ -> 0)) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_InitPshufbStableMask | val va_wp_InitPshufbStableMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_InitPshufbStableMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 84,
"end_line": 1508,
"start_col": 0,
"start_line": 1502
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Flags.t",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Words_s.four",
"Vale.Def.Types_s.nat32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Words_s.Mkfour",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_flags",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_InitPshufbStableMask
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst: va_value_xmm) (va_x_tmp: va_value_reg_opr64) (va_x_efl: Vale.X64.Flags.t).
let va_sM =
va_upd_flags va_x_efl
(va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))
in
va_get_ok va_sM /\
va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==>
va_k va_sM (()))) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_PushXmm_Secret | val va_wp_PushXmm_Secret
(src: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_PushXmm_Secret
(src: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_PushXmm_Secret (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Secret
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 16,
"end_line": 413,
"start_col": 0,
"start_line": 398
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm src tmp) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm src tmp)) =
(va_QProc (va_code_PushXmm src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm src tmp) (va_wpProof_PushXmm src tmp))
//--
//-- PopXmm
val va_code_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PopXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm dst tmp) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))))
[@ va_qattr]
let va_wp_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> expected_xmm:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PopXmm dst tmp expected_xmm va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PopXmm dst tmp) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32) :
(va_quickCode unit (va_code_PopXmm dst tmp)) =
(va_QProc (va_code_PopXmm dst tmp) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp;
va_mod_xmm dst]) (va_wp_PopXmm dst tmp expected_xmm) (va_wpProof_PopXmm dst tmp expected_xmm))
//--
//-- PushXmm_Secret
val va_code_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_PushXmm_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm_Secret src tmp) va_s0 /\ va_is_src_xmm src
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp
va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp
(va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Secret (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
src: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_src_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.op_LessThanOrEqual",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Stack_i.init_rsp",
"Vale.X64.Decls.va_get_stack",
"Prims.op_Subtraction",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Vale.X64.Memory.memtaint",
"Prims.l_imp",
"Prims.eq2",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.store_stack64",
"Vale.X64.Decls.va_get_stackTaint",
"Vale.X64.Stack_i.store_taint_stack64",
"Vale.Arch.HeapTypes_s.Secret",
"Prims.int",
"Vale.Def.Words_s.nat64",
"Vale.Arch.Types.hi64",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Arch.Types.lo64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stackTaint",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64",
"Vale.X64.Decls.va_upd_operand_reg_opr64"
] | [] | false | false | false | true | true | let va_wp_PushXmm_Secret
(src: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp: va_value_reg_opr64)
(va_x_rsp: nat64)
(va_x_stack: vale_stack)
(va_x_stackTaint: memtaint).
let va_sM =
va_upd_stackTaint va_x_stackTaint
(va_upd_stack va_x_stack
(va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0)))
in
va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in
let src_hi = Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in
va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16)
src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM ==
Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Secret
(Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8)
Secret
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Pinsrq | val va_quick_Pinsrq (dst: va_operand_xmm) (src: va_operand_opr64) (index: nat8)
: (va_quickCode unit (va_code_Pinsrq dst src index)) | val va_quick_Pinsrq (dst: va_operand_xmm) (src: va_operand_opr64) (index: nat8)
: (va_quickCode unit (va_code_Pinsrq dst src index)) | let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 38,
"end_line": 1011,
"start_col": 0,
"start_line": 1008
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
src: Vale.X64.Decls.va_operand_opr64 ->
index: Vale.X64.Memory.nat8
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_Pinsrq dst src index) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_opr64",
"Vale.X64.Memory.nat8",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Pinsrq",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Pinsrq",
"Vale.X64.InsVector.va_wpProof_Pinsrq",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Pinsrq (dst: va_operand_xmm) (src: va_operand_opr64) (index: nat8)
: (va_quickCode unit (va_code_Pinsrq dst src index)) =
| (va_QProc (va_code_Pinsrq dst src index)
([va_mod_xmm dst])
(va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index)) | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.uint8 | val uint8 : Type0 | let uint8 = Lib.IntTypes.uint8 | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 30,
"end_line": 14,
"start_col": 0,
"start_line": 14
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50" | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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 | Type0 | Prims.Tot | [
"total"
] | [] | [
"Lib.IntTypes.uint8"
] | [] | false | false | false | true | true | let uint8 =
| Lib.IntTypes.uint8 | false |
|
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Vpslldq8 | val va_quick_Vpslldq8 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Vpslldq8 dst src)) | val va_quick_Vpslldq8 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Vpslldq8 dst src)) | let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 34,
"end_line": 1124,
"start_col": 0,
"start_line": 1121
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_Vpslldq8 dst src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Vpslldq8",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Vpslldq8",
"Vale.X64.InsVector.va_wpProof_Vpslldq8",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Vpslldq8 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Vpslldq8 dst src)) =
| (va_QProc (va_code_Vpslldq8 dst src)
([va_mod_xmm dst])
(va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_PinsrqImm | val va_quick_PinsrqImm
(dst: va_operand_xmm)
(immediate: nat64)
(index: nat8)
(tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) | val va_quick_PinsrqImm
(dst: va_operand_xmm)
(immediate: nat64)
(index: nat8)
(tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) | let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 93,
"end_line": 1050,
"start_col": 0,
"start_line": 1047
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
immediate: Vale.X64.Memory.nat64 ->
index: Vale.X64.Memory.nat8 ->
tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_PinsrqImm dst immediate index tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Memory.nat64",
"Vale.X64.Memory.nat8",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_PinsrqImm",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_PinsrqImm",
"Vale.X64.InsVector.va_wpProof_PinsrqImm",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PinsrqImm
(dst: va_operand_xmm)
(immediate: nat64)
(index: nat8)
(tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
| (va_QProc (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp)
(va_wpProof_PinsrqImm dst immediate index tmp)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_Stack_lemma | val va_quick_Stack_lemma (base: operand64) (offset: int) (t: taint)
: (va_quickCode unit (va_code_Stack_lemma ())) | val va_quick_Stack_lemma (base: operand64) (offset: int) (t: taint)
: (va_quickCode unit (va_code_Stack_lemma ())) | let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 19,
"end_line": 44,
"start_col": 0,
"start_line": 41
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | base: Vale.X64.Machine_s.operand64 -> offset: Prims.int -> t: Vale.Arch.HeapTypes_s.taint
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_Stack_lemma ()) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Machine_s.operand64",
"Prims.int",
"Vale.Arch.HeapTypes_s.taint",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_Stack_lemma",
"Prims.Nil",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.InsStack.va_wp_Stack_lemma",
"Vale.X64.InsStack.va_wpProof_Stack_lemma",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Stack_lemma (base: operand64) (offset: int) (t: taint)
: (va_quickCode unit (va_code_Stack_lemma ())) =
| (va_QProc (va_code_Stack_lemma ())
([])
(va_wp_Stack_lemma base offset t)
(va_wpProof_Stack_lemma base offset t)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Load128_buffer | val va_quick_Load128_buffer
(h: va_operand_heaplet)
(dst: va_operand_xmm)
(src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Load128_buffer h dst src offset t)) | val va_quick_Load128_buffer
(h: va_operand_heaplet)
(dst: va_operand_xmm)
(src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Load128_buffer h dst src offset t)) | let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 85,
"end_line": 1244,
"start_col": 0,
"start_line": 1240
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
h: Vale.X64.Decls.va_operand_heaplet ->
dst: Vale.X64.Decls.va_operand_xmm ->
src: Vale.X64.Decls.va_operand_reg_opr64 ->
offset: Prims.int ->
t: Vale.Arch.HeapTypes_s.taint ->
b: Vale.X64.Memory.buffer128 ->
index: Prims.int
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_Load128_buffer h dst src offset t) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_heaplet",
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Prims.int",
"Vale.Arch.HeapTypes_s.taint",
"Vale.X64.Memory.buffer128",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Load128_buffer",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Load128_buffer",
"Vale.X64.InsVector.va_wpProof_Load128_buffer",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Load128_buffer
(h: va_operand_heaplet)
(dst: va_operand_xmm)
(src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Load128_buffer h dst src offset t)) =
| (va_QProc (va_code_Load128_buffer h dst src offset t)
([va_mod_xmm dst])
(va_wp_Load128_buffer h dst src offset t b index)
(va_wpProof_Load128_buffer h dst src offset t b index)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_wp_PopXmm_Secret | val va_wp_PopXmm_Secret
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(expected_xmm: quad32)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_PopXmm_Secret
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(expected_xmm: quad32)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_PopXmm_Secret (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Secret (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 46,
"end_line": 473,
"start_col": 0,
"start_line": 456
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm src tmp) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm src tmp)) =
(va_QProc (va_code_PushXmm src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm src tmp) (va_wpProof_PushXmm src tmp))
//--
//-- PopXmm
val va_code_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PopXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm dst tmp) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))))
[@ va_qattr]
let va_wp_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> expected_xmm:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PopXmm dst tmp expected_xmm va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PopXmm dst tmp) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32) :
(va_quickCode unit (va_code_PopXmm dst tmp)) =
(va_QProc (va_code_PopXmm dst tmp) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp;
va_mod_xmm dst]) (va_wp_PopXmm dst tmp expected_xmm) (va_wpProof_PopXmm dst tmp expected_xmm))
//--
//-- PushXmm_Secret
val va_code_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_PushXmm_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm_Secret src tmp) va_s0 /\ va_is_src_xmm src
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp
va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp
(va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Secret (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm_Secret (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Secret
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm_Secret src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm_Secret src tmp)
([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm_Secret (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm_Secret src tmp)) =
(va_QProc (va_code_PushXmm_Secret src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm_Secret src tmp) (va_wpProof_PushXmm_Secret src tmp))
//--
//-- PopXmm_Secret
val va_code_PopXmm_Secret : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm_Secret : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_PopXmm_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm_Secret dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Secret (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
expected_xmm: Vale.X64.Decls.quad32 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.quad32",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Vale.X64.Stack_i.valid_src_stack64",
"Vale.X64.Decls.va_get_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Decls.va_get_stack",
"Prims.op_Addition",
"Vale.X64.Stack_i.valid_taint_stack64",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.X64.Decls.va_get_stackTaint",
"Prims.eq2",
"Vale.Def.Words_s.nat64",
"Vale.Arch.Types.hi64",
"Vale.X64.Stack_i.load_stack64",
"Vale.Arch.Types.lo64",
"Prims.op_GreaterThanOrEqual",
"Prims.op_Subtraction",
"Vale.X64.Stack_i.init_rsp",
"Prims.op_LessThanOrEqual",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Vale.X64.Memory.nat64",
"Vale.X64.InsBasic.vale_stack",
"Prims.l_imp",
"Vale.X64.Decls.va_eval_xmm",
"Prims.int",
"Vale.X64.Stack_i.vale_stack",
"Vale.X64.Stack_i.free_stack64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_stack",
"Vale.X64.Decls.va_upd_reg64",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_PopXmm_Secret
(dst: va_operand_xmm)
(tmp: va_operand_reg_opr64)
(expected_xmm: quad32)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8)
Secret
(va_get_stackTaint va_s0) /\
Vale.Arch.Types.hi64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
(forall (va_x_dst: va_value_xmm)
(va_x_tmp: va_value_reg_opr64)
(va_x_rsp: nat64)
(va_x_stack: vale_stack).
let va_sM =
va_upd_stack va_x_stack
(va_upd_reg64 rRsp
va_x_rsp
(va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0)))
in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == expected_xmm /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\
va_get_stack va_sM ==
Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Vpsrldq8 | val va_quick_Vpsrldq8 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Vpsrldq8 dst src)) | val va_quick_Vpsrldq8 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Vpsrldq8 dst src)) | let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 34,
"end_line": 1160,
"start_col": 0,
"start_line": 1157
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_Vpsrldq8 dst src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Vpsrldq8",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Vpsrldq8",
"Vale.X64.InsVector.va_wpProof_Vpsrldq8",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Vpsrldq8 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Vpsrldq8 dst src)) =
| (va_QProc (va_code_Vpsrldq8 dst src)
([va_mod_xmm dst])
(va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Mov128 | val va_quick_Mov128 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Mov128 dst src)) | val va_quick_Mov128 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Mov128 dst src)) | let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 13,
"end_line": 1192,
"start_col": 0,
"start_line": 1189
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> src: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_Mov128 dst src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Mov128",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Mov128",
"Vale.X64.InsVector.va_wpProof_Mov128",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Mov128 (dst src: va_operand_xmm) : (va_quickCode unit (va_code_Mov128 dst src)) =
| (va_QProc (va_code_Mov128 dst src)
([va_mod_xmm dst])
(va_wp_Mov128 dst src)
(va_wpProof_Mov128 dst src)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_PinsrqImm | val va_wp_PinsrqImm
(dst: va_operand_xmm)
(immediate: nat64)
(index: nat8)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_PinsrqImm
(dst: va_operand_xmm)
(immediate: nat64)
(index: nat8)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 41,
"end_line": 1038,
"start_col": 0,
"start_line": 1032
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
immediate: Vale.X64.Memory.nat64 ->
index: Vale.X64.Memory.nat8 ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Memory.nat64",
"Vale.X64.Memory.nat8",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_xmm",
"Vale.X64.Decls.va_is_dst_reg_opr64",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Prims.op_LessThan",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_xmm",
"Vale.X64.Decls.va_value_reg_opr64",
"Prims.l_imp",
"Prims.eq2",
"Vale.Def.Types_s.quad32",
"Vale.X64.Decls.va_eval_xmm",
"Vale.Def.Types_s.insert_nat64",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_operand_reg_opr64",
"Vale.X64.Decls.va_upd_operand_xmm"
] | [] | false | false | false | true | true | let va_wp_PinsrqImm
(dst: va_operand_xmm)
(immediate: nat64)
(index: nat8)
(tmp: va_operand_reg_opr64)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\
(forall (va_x_dst: va_value_xmm) (va_x_tmp: va_value_reg_opr64).
let va_sM = va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in
va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_Store128_buffer | val va_wp_Store128_buffer
(h: va_operand_heaplet)
(dst: va_operand_reg_opr64)
(src: va_operand_xmm)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Store128_buffer
(h: va_operand_heaplet)
(dst: va_operand_reg_opr64)
(src: va_operand_xmm)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 99,
"end_line": 1343,
"start_col": 0,
"start_line": 1331
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
h: Vale.X64.Decls.va_operand_heaplet ->
dst: Vale.X64.Decls.va_operand_reg_opr64 ->
src: Vale.X64.Decls.va_operand_xmm ->
offset: Prims.int ->
t: Vale.Arch.HeapTypes_s.taint ->
b: Vale.X64.Memory.buffer128 ->
index: Prims.int ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_heaplet",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_operand_xmm",
"Prims.int",
"Vale.Arch.HeapTypes_s.taint",
"Vale.X64.Memory.buffer128",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_heaplet",
"Prims.b2t",
"Vale.X64.Decls.va_is_src_reg_opr64",
"Vale.X64.Decls.va_is_src_xmm",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.CPU_Features_s.sse_enabled",
"Vale.X64.Decls.valid_dst_addr",
"Vale.X64.Memory.vuint128",
"Vale.X64.Decls.va_eval_heaplet",
"Vale.X64.Memory.valid_layout_buffer",
"Vale.X64.Decls.va_get_mem_layout",
"Vale.X64.Memory.valid_taint_buf128",
"Vale.Arch.HeapImpl.__proj__Mkvale_heap_layout__item__vl_taint",
"Prims.eq2",
"Prims.op_Addition",
"Vale.X64.Decls.va_eval_reg_opr64",
"Vale.X64.Memory.buffer_addr",
"Prims.op_Multiply",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_heaplet",
"Vale.X64.InsBasic.vale_heap",
"Prims.l_imp",
"Vale.X64.Memory.vale_heap",
"Vale.X64.InsVector.buffer128_write",
"Vale.X64.Decls.va_eval_xmm",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_mem",
"Vale.X64.Decls.va_upd_operand_heaplet"
] | [] | false | false | false | true | true | let va_wp_Store128_buffer
(h: va_operand_heaplet)
(dst: va_operand_reg_opr64)
(src: va_operand_xmm)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\
Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128
b
(va_get_mem_layout va_s0)
(va_eval_heaplet va_s0 h)
true /\
Vale.X64.Memory.valid_taint_buf128 b
(va_eval_heaplet va_s0 h)
((va_get_mem_layout va_s0).vl_taint)
t /\
va_eval_reg_opr64 va_s0 dst + offset ==
Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) +
16
`op_Multiply`
index /\
(forall (va_x_h: va_value_heaplet) (va_x_mem: vale_heap).
let va_sM = va_upd_mem va_x_mem (va_upd_operand_heaplet h va_x_h va_s0) in
va_get_ok va_sM /\
va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==>
va_k va_sM (()))) | false |
Hacl.Impl.RSAPSS.Keys.fst | Hacl.Impl.RSAPSS.Keys.rsapss_load_skey_st | val rsapss_load_skey_st : t: Hacl.Bignum.Definitions.limb_t ->
ke: Hacl.Bignum.Exponentiation.exp t ->
modBits: Lib.IntTypes.size_t
-> Type0 | let rsapss_load_skey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t
-> dBits:size_t{LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> db:lbuffer uint8 (blocks dBits 8ul)
-> skey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t)) +! blocks dBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h db /\ live h skey /\
disjoint skey nb /\ disjoint skey eb /\ disjoint skey db)
(ensures fun h0 b h1 -> modifies (loc skey) h0 h1 /\
(b, as_seq h1 skey) == LS.rsapss_load_skey (v modBits) (v eBits) (v dBits)
(as_seq h0 nb) (as_seq h0 eb) (as_seq h0 db)) | {
"file_name": "code/rsapss/Hacl.Impl.RSAPSS.Keys.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 51,
"end_line": 258,
"start_col": 0,
"start_line": 244
} | module Hacl.Impl.RSAPSS.Keys
open FStar.HyperStack
open FStar.HyperStack.ST
open FStar.Mul
open Lib.IntTypes
open Lib.Buffer
open Hacl.Bignum.Definitions
module ST = FStar.HyperStack.ST
module B = LowStar.Buffer
module HS = FStar.HyperStack
module LSeq = Lib.Sequence
module LS = Hacl.Spec.RSAPSS
module BM = Hacl.Bignum.Montgomery
module BN = Hacl.Bignum
module BB = Hacl.Spec.Bignum.Base
module BE = Hacl.Bignum.Exponentiation
#reset-options "--z3rlimit 50 --fuel 0 --ifuel 0"
inline_for_extraction noextract
val rsapss_check_pkey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t ->
res:bool{res <==> LS.pkey_len_pre t (v modBits) (v eBits)}
let rsapss_check_pkey_len #t modBits eBits =
if 1ul <. modBits && 0ul <. eBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
nLen <=. 0xfffffffful /. (2ul *! bits) && eLen <=. 0xfffffffful /. bits &&
nLen +! nLen <=. 0xfffffffful -. eLen end
else false
inline_for_extraction noextract
val rsapss_check_skey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t
-> dBits:size_t ->
res:bool{res <==> LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
let rsapss_check_skey_len #t modBits eBits dBits =
if rsapss_check_pkey_len #t modBits eBits && 0ul <. dBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
dLen <=. 0xfffffffful /. bits &&
2ul *! nLen <=. 0xfffffffful -! eLen -! dLen end
else false
inline_for_extraction noextract
let bn_check_num_bits_st (t:limb_t) =
bs:size_t{0 < v bs /\ bits t * v (blocks bs (size (bits t))) <= max_size_t}
-> b:lbignum t (blocks bs (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h b)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.bn_check_num_bits (v bs) (as_seq h0 b))
inline_for_extraction noextract
val bn_check_num_bits: #t:limb_t -> bn_check_num_bits_st t
let bn_check_num_bits #t bs b =
[@inline_let] let bits = size (bits t) in
let bLen = blocks bs bits in
if bs =. bits *! bLen then ones t SEC else BN.bn_lt_pow2_mask bLen b bs
inline_for_extraction noextract
let rsapss_check_modulus_st (t:limb_t) =
modBits:size_t{0 < v modBits /\ bits t * v (blocks modBits (size (bits t))) <= max_size_t}
-> n:lbignum t (blocks modBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h n)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_modulus (v modBits) (as_seq h0 n))
inline_for_extraction noextract
val rsapss_check_modulus:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_modulus_st t
let rsapss_check_modulus #t bn_check_num_bits modBits n =
let nLen = blocks modBits (size (bits t)) in
let bits0 = BN.bn_is_odd nLen n in
let m0 = uint #t 0 -. bits0 in
let m1 = BN.bn_gt_pow2_mask nLen n (modBits -! 1ul) in
let m2 = bn_check_num_bits modBits n in
m0 &. (m1 &. m2)
inline_for_extraction noextract
let rsapss_check_exponent_st (t:limb_t) =
eBits:size_t{0 < v eBits /\ bits t * v (blocks eBits (size (bits t))) <= max_size_t}
-> e:lbignum t (blocks eBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h e)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_exponent (v eBits) (as_seq h0 e))
inline_for_extraction noextract
val rsapss_check_exponent:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_exponent_st t
let rsapss_check_exponent #t bn_check_num_bits eBits e =
let eLen = blocks eBits (size (bits t)) in
let m0 = BN.bn_is_zero_mask eLen e in
let m1 = bn_check_num_bits eBits e in
(lognot m0) &. m1
inline_for_extraction noextract
class rsapss_checks (t:limb_t) = {
check_num_bits: bn_check_num_bits_st t;
check_modulus: rsapss_check_modulus_st t;
check_exponent: rsapss_check_exponent_st t;
}
[@CInline]
let check_num_bits_u32 : bn_check_num_bits_st U32 =
bn_check_num_bits
[@CInline]
let check_modulus_u32 : rsapss_check_modulus_st U32 =
rsapss_check_modulus check_num_bits_u32
[@CInline]
let check_exponent_u32 : rsapss_check_exponent_st U32 =
rsapss_check_exponent check_num_bits_u32
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint32: rsapss_checks U32
let mk_runtime_rsapss_checks_uint32 = {
check_num_bits = check_num_bits_u32;
check_modulus = check_modulus_u32;
check_exponent = check_exponent_u32;
}
[@CInline]
let check_num_bits_u64 : bn_check_num_bits_st U64 =
bn_check_num_bits
[@CInline]
let check_modulus_u64 : rsapss_check_modulus_st U64 =
rsapss_check_modulus check_num_bits_u64
[@CInline]
let check_exponent_u64 : rsapss_check_exponent_st U64 =
rsapss_check_exponent check_num_bits_u64
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint64: rsapss_checks U64
let mk_runtime_rsapss_checks_uint64 = {
check_num_bits = check_num_bits_u64;
check_modulus = check_modulus_u64;
check_exponent = check_exponent_u64;
}
inline_for_extraction noextract
let mk_runtime_rsapss_checks (#t:limb_t) : rsapss_checks t =
match t with
| U32 -> mk_runtime_rsapss_checks_uint32
| U64 -> mk_runtime_rsapss_checks_uint64
//pkey = [n; r2; e]
inline_for_extraction noextract
let rsapss_load_pkey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t{LS.pkey_len_pre t (v modBits) (v eBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> pkey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h pkey /\
disjoint pkey nb /\ disjoint pkey eb)
(ensures fun h0 b h1 -> modifies (loc pkey) h0 h1 /\
(b, as_seq h1 pkey) == LS.rsapss_load_pkey (v modBits) (v eBits) (as_seq h0 nb) (as_seq h0 eb))
inline_for_extraction noextract
val rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
rsapss_load_pkey_st t ke modBits
let rsapss_load_pkey #t ke modBits kc eBits nb eb pkey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
assert (v ((modBits -! 1ul) /. bits) < v nLen);
LS.blocks_bits_lemma t (v modBits);
assert (v (blocks nbLen numb) == v nLen);
LS.blocks_bits_lemma t (v eBits);
assert (v (blocks ebLen numb) == v eLen);
let n = sub pkey 0ul nLen in
let r2 = sub pkey nLen nLen in
let e = sub pkey (nLen +! nLen) eLen in
BN.bn_from_bytes_be nbLen nb n;
ke.BE.precompr2 (modBits -! 1ul) n r2;
BN.bn_from_bytes_be ebLen eb e;
let h1 = ST.get () in
LSeq.lemma_concat3 (v nLen) (as_seq h1 n)
(v nLen) (as_seq h1 r2) (v eLen) (as_seq h1 e) (as_seq h1 pkey);
let m0 = kc.check_modulus modBits n in
let m1 = kc.check_exponent eBits e in
let m = m0 &. m1 in
BB.unsafe_bool_of_limb #t m
#set-options "--z3rlimit 300"
//skey = [pkey; d] | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"LowStar.Monotonic.Buffer.fsti.checked",
"LowStar.Buffer.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Buffer.fsti.checked",
"Hacl.Spec.RSAPSS.fst.checked",
"Hacl.Spec.Bignum.Base.fst.checked",
"Hacl.Bignum.Montgomery.fsti.checked",
"Hacl.Bignum.Exponentiation.fsti.checked",
"Hacl.Bignum.Definitions.fst.checked",
"Hacl.Bignum.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Tactics.Typeclasses.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.HyperStack.ST.fsti.checked",
"FStar.HyperStack.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Impl.RSAPSS.Keys.fst"
} | [
{
"abbrev": true,
"full_module": "Hacl.Bignum.Exponentiation",
"short_module": "BE"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.Bignum.Base",
"short_module": "BB"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum",
"short_module": "BN"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum.Montgomery",
"short_module": "BM"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.RSAPSS",
"short_module": "LS"
},
{
"abbrev": true,
"full_module": "Lib.Sequence",
"short_module": "LSeq"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack.ST",
"short_module": "ST"
},
{
"abbrev": false,
"full_module": "Hacl.Bignum.Definitions",
"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.ST",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.HyperStack",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 0,
"initial_ifuel": 0,
"max_fuel": 0,
"max_ifuel": 0,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 300,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
t: Hacl.Bignum.Definitions.limb_t ->
ke: Hacl.Bignum.Exponentiation.exp t ->
modBits: Lib.IntTypes.size_t
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Hacl.Bignum.Definitions.limb_t",
"Hacl.Bignum.Exponentiation.exp",
"Lib.IntTypes.size_t",
"Hacl.Spec.RSAPSS.skey_len_pre",
"Lib.IntTypes.v",
"Lib.IntTypes.U32",
"Lib.IntTypes.PUB",
"Lib.Buffer.lbuffer",
"Lib.IntTypes.uint8",
"Hacl.Bignum.Definitions.blocks",
"FStar.UInt32.__uint_to_t",
"Hacl.Bignum.Definitions.lbignum",
"Lib.IntTypes.op_Plus_Bang",
"Lib.IntTypes.op_Star_Bang",
"Lib.IntTypes.size",
"Lib.IntTypes.bits",
"Prims.bool",
"FStar.Monotonic.HyperStack.mem",
"Prims.l_and",
"Prims.eq2",
"Prims.l_or",
"Prims.int",
"Lib.IntTypes.range",
"Prims.b2t",
"Prims.op_GreaterThan",
"Prims.op_LessThanOrEqual",
"Lib.IntTypes.max_size_t",
"FStar.Mul.op_Star",
"Hacl.Spec.Bignum.Definitions.blocks",
"Prims.op_LessThan",
"Hacl.Bignum.__proj__Mkbn__item__len",
"Hacl.Bignum.Exponentiation.__proj__Mkexp__item__bn",
"Lib.Buffer.live",
"Lib.Buffer.MUT",
"Hacl.Bignum.Definitions.limb",
"Lib.Buffer.disjoint",
"Lib.Buffer.modifies",
"Lib.Buffer.loc",
"FStar.Pervasives.Native.tuple2",
"Hacl.Spec.Bignum.Definitions.lbignum",
"Prims.op_Addition",
"FStar.Pervasives.Native.Mktuple2",
"Lib.Buffer.as_seq",
"Hacl.Spec.RSAPSS.rsapss_load_skey"
] | [] | false | false | false | false | true | let rsapss_load_skey_st (t: limb_t) (ke: BE.exp t) (modBits: size_t) =
|
eBits: size_t ->
dBits: size_t{LS.skey_len_pre t (v modBits) (v eBits) (v dBits)} ->
nb: lbuffer uint8 (blocks modBits 8ul) ->
eb: lbuffer uint8 (blocks eBits 8ul) ->
db: lbuffer uint8 (blocks dBits 8ul) ->
skey:
lbignum t
(2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t)) +!
blocks dBits (size (bits t)))
-> Stack bool
(requires
fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\ live h nb /\ live h eb /\ live h db /\
live h skey /\ disjoint skey nb /\ disjoint skey eb /\ disjoint skey db)
(ensures
fun h0 b h1 ->
modifies (loc skey) h0 h1 /\
(b, as_seq h1 skey) ==
LS.rsapss_load_skey (v modBits)
(v eBits)
(v dBits)
(as_seq h0 nb)
(as_seq h0 eb)
(as_seq h0 db)) | false |
|
Steel.Semantics.Instantiate.fsti | Steel.Semantics.Instantiate.state_uses | val state_uses (uses: inames) : S.st | val state_uses (uses: inames) : S.st | let state_uses (uses:inames) : S.st = state_obeys_st_laws uses; state0 uses | {
"file_name": "lib/steel/Steel.Semantics.Instantiate.fsti",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 75,
"end_line": 45,
"start_col": 0,
"start_line": 45
} | (*
Copyright 2020 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module Steel.Semantics.Instantiate
module S = Steel.Semantics.Hoare.MST
open Steel.Memory
let state0 (uses:inames) : S.st0 =
{
S.mem = mem;
S.core = core_mem;
S.full_mem_pred = full_mem_pred;
S.locks_preorder = mem_evolves;
S.hprop = slprop;
S.locks_invariant = locks_invariant uses;
S.disjoint = disjoint;
S.join = join;
S.interp = interp;
S.emp = emp;
S.star = star;
S.equals = equiv
}
val state_obeys_st_laws (uses:inames)
: Lemma (S.st_laws (state0 uses)) | {
"checked_file": "/",
"dependencies": [
"Steel.Semantics.Hoare.MST.fst.checked",
"Steel.Memory.fsti.checked",
"prims.fst.checked",
"FStar.Set.fsti.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Steel.Semantics.Instantiate.fsti"
} | [
{
"abbrev": true,
"full_module": "Steel.Semantics.Hoare.MST",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": true,
"full_module": "Steel.Semantics.Hoare.MST",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Steel.Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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 | uses: Steel.Memory.inames -> Steel.Semantics.Hoare.MST.st | Prims.Tot | [
"total"
] | [] | [
"Steel.Memory.inames",
"Steel.Semantics.Instantiate.state0",
"Prims.unit",
"Steel.Semantics.Instantiate.state_obeys_st_laws",
"Steel.Semantics.Hoare.MST.st"
] | [] | false | false | false | true | false | let state_uses (uses: inames) : S.st =
| state_obeys_st_laws uses;
state0 uses | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_InitPshufbStableMask | val va_quick_InitPshufbStableMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbStableMask dst tmp)) | val va_quick_InitPshufbStableMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbStableMask dst tmp)) | let va_quick_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode
unit (va_code_InitPshufbStableMask dst tmp)) =
(va_QProc (va_code_InitPshufbStableMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbStableMask dst tmp) (va_wpProof_InitPshufbStableMask dst tmp)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 89,
"end_line": 1520,
"start_col": 0,
"start_line": 1517
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (())))
val va_wpProof_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbStableMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_InitPshufbStableMask dst tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_InitPshufbStableMask",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_InitPshufbStableMask",
"Vale.X64.InsVector.va_wpProof_InitPshufbStableMask",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_InitPshufbStableMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbStableMask dst tmp)) =
| (va_QProc (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbStableMask dst tmp)
(va_wpProof_InitPshufbStableMask dst tmp)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_ZeroXmm | val va_quick_ZeroXmm (dst: va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) | val va_quick_ZeroXmm (dst: va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) | let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 29,
"end_line": 1446,
"start_col": 0,
"start_line": 1444
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_ZeroXmm dst) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_ZeroXmm",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_ZeroXmm",
"Vale.X64.InsVector.va_wpProof_ZeroXmm",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_ZeroXmm (dst: va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
| (va_QProc (va_code_ZeroXmm dst)
([va_Mod_flags; va_mod_xmm dst])
(va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Store128_buffer | val va_quick_Store128_buffer
(h: va_operand_heaplet)
(dst: va_operand_reg_opr64)
(src: va_operand_xmm)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Store128_buffer h dst src offset t)) | val va_quick_Store128_buffer
(h: va_operand_heaplet)
(dst: va_operand_reg_opr64)
(src: va_operand_xmm)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Store128_buffer h dst src offset t)) | let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 15,
"end_line": 1358,
"start_col": 0,
"start_line": 1353
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
h: Vale.X64.Decls.va_operand_heaplet ->
dst: Vale.X64.Decls.va_operand_reg_opr64 ->
src: Vale.X64.Decls.va_operand_xmm ->
offset: Prims.int ->
t: Vale.Arch.HeapTypes_s.taint ->
b: Vale.X64.Memory.buffer128 ->
index: Prims.int
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_Store128_buffer h dst src offset t) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_heaplet",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.va_operand_xmm",
"Prims.int",
"Vale.Arch.HeapTypes_s.taint",
"Vale.X64.Memory.buffer128",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Store128_buffer",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_mem",
"Vale.X64.QuickCode.va_mod_heaplet",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Store128_buffer",
"Vale.X64.InsVector.va_wpProof_Store128_buffer",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Store128_buffer
(h: va_operand_heaplet)
(dst: va_operand_reg_opr64)
(src: va_operand_xmm)
(offset: int)
(t: taint)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Store128_buffer h dst src offset t)) =
| (va_QProc (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index)
(va_wpProof_Store128_buffer h dst src offset t b index)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_Push | val va_quick_Push (src: va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) | val va_quick_Push (src: va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) | let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 31,
"end_line": 129,
"start_col": 0,
"start_line": 127
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | src: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_Push src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_Push",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stackTaint",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_Push",
"Vale.X64.InsStack.va_wpProof_Push",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Push (src: va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
| (va_QProc (va_code_Push src)
([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push src)
(va_wpProof_Push src)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_InitPshufbMask | val va_quick_InitPshufbMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbMask dst tmp)) | val va_quick_InitPshufbMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbMask dst tmp)) | let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 71,
"end_line": 1483,
"start_col": 0,
"start_line": 1480
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_InitPshufbMask dst tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_InitPshufbMask",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_InitPshufbMask",
"Vale.X64.InsVector.va_wpProof_InitPshufbMask",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_InitPshufbMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbMask dst tmp)) =
| (va_QProc (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp)
(va_wpProof_InitPshufbMask dst tmp)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_Pop | val va_quick_Pop (dst: va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) | val va_quick_Pop (dst: va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) | let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 30,
"end_line": 88,
"start_col": 0,
"start_line": 86
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_dst_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_Pop dst) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_dst_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_Pop",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.QuickCode.va_mod_dst_opr64",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_Pop",
"Vale.X64.InsStack.va_wpProof_Pop",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Pop (dst: va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
| (va_QProc (va_code_Pop dst)
([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop dst)
(va_wpProof_Pop dst)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_wp_Store64_buffer128 | val va_wp_Store64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | val va_wp_Store64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 | let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (()))) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 56,
"end_line": 1400,
"start_col": 0,
"start_line": 1386
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
h: Vale.X64.Decls.va_operand_heaplet ->
dst: Vale.X64.Decls.va_operand_reg_opr64 ->
src: Vale.X64.Decls.va_operand_reg_opr64 ->
offset: Prims.int ->
t: Vale.Arch.HeapTypes_s.taint ->
upper: Prims.bool ->
b: Vale.X64.Memory.buffer128 ->
index: Prims.int ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Type0 | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_heaplet",
"Vale.X64.Decls.va_operand_reg_opr64",
"Prims.int",
"Vale.Arch.HeapTypes_s.taint",
"Prims.bool",
"Vale.X64.Memory.buffer128",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Prims.l_and",
"Vale.X64.Decls.va_is_dst_heaplet",
"Prims.b2t",
"Vale.X64.Decls.va_is_src_reg_opr64",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.Decls.valid_dst_addr",
"Vale.X64.Memory.vuint128",
"Vale.X64.Decls.va_eval_heaplet",
"Vale.X64.Memory.valid_layout_buffer",
"Vale.X64.Decls.va_get_mem_layout",
"Vale.X64.Memory.valid_taint_buf128",
"Vale.Arch.HeapImpl.__proj__Mkvale_heap_layout__item__vl_taint",
"Prims.eq2",
"Prims.op_Addition",
"Vale.X64.Decls.va_eval_reg_opr64",
"Vale.X64.Memory.buffer_addr",
"Prims.op_Multiply",
"Vale.X64.Decls.va_if",
"Prims.l_not",
"Prims.l_Forall",
"Vale.X64.Decls.va_value_heaplet",
"Vale.X64.InsBasic.vale_heap",
"Prims.l_imp",
"Vale.X64.Memory.vale_heap",
"Vale.X64.InsVector.buffer128_write",
"Vale.Def.Types_s.insert_nat64",
"Vale.X64.Decls.buffer128_read",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_upd_mem",
"Vale.X64.Decls.va_upd_operand_heaplet"
] | [] | false | false | false | true | true | let va_wp_Store64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
(va_s0: va_state)
(va_k: (va_state -> unit -> Type0))
: Type0 =
| (va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\
Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\
Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128
b
(va_get_mem_layout va_s0)
(va_eval_heaplet va_s0 h)
true /\
Vale.X64.Memory.valid_taint_buf128 b
(va_eval_heaplet va_s0 h)
((va_get_mem_layout va_s0).vl_taint)
t /\
va_eval_reg_opr64 va_s0 dst + offset ==
Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) +
16
`op_Multiply`
index +
va_if upper (fun _ -> 8) (fun _ -> 0) /\
(forall (va_x_h: va_value_heaplet) (va_x_mem: vale_heap).
let va_sM = va_upd_mem va_x_mem (va_upd_operand_heaplet h va_x_h va_s0) in
va_get_ok va_sM /\
va_eval_heaplet va_sM h ==
buffer128_write b
index
(Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b
index
(va_eval_heaplet va_s0 h))
(va_eval_reg_opr64 va_s0 src)
(va_if upper (fun _ -> 1) (fun _ -> 0)))
(va_eval_heaplet va_s0 h) ==>
va_k va_sM (()))) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_LoadBe64_buffer128 | val va_quick_LoadBe64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) | val va_quick_LoadBe64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) | let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 36,
"end_line": 1304,
"start_col": 0,
"start_line": 1299
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
h: Vale.X64.Decls.va_operand_heaplet ->
dst: Vale.X64.Decls.va_operand_reg_opr64 ->
src: Vale.X64.Decls.va_operand_reg_opr64 ->
offset: Prims.int ->
t: Vale.Arch.HeapTypes_s.taint ->
upper: Prims.bool ->
b: Vale.X64.Memory.buffer128 ->
index: Prims.int
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_LoadBe64_buffer128 h dst src offset t upper) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_heaplet",
"Vale.X64.Decls.va_operand_reg_opr64",
"Prims.int",
"Vale.Arch.HeapTypes_s.taint",
"Prims.bool",
"Vale.X64.Memory.buffer128",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_LoadBe64_buffer128",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_LoadBe64_buffer128",
"Vale.X64.InsVector.va_wpProof_LoadBe64_buffer128",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_LoadBe64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
| (va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper)
([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index)
(va_wpProof_LoadBe64_buffer128 h dst src offset t upper b index)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_Pop_Secret | val va_quick_Pop_Secret (dst: va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) | val va_quick_Pop_Secret (dst: va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) | let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 55,
"end_line": 174,
"start_col": 0,
"start_line": 172
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_dst_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_Pop_Secret dst) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_dst_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_Pop_Secret",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.QuickCode.va_mod_dst_opr64",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_Pop_Secret",
"Vale.X64.InsStack.va_wpProof_Pop_Secret",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Pop_Secret (dst: va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
| (va_QProc (va_code_Pop_Secret dst)
([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst)
(va_wpProof_Pop_Secret dst)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_Push_Secret | val va_quick_Push_Secret (src: va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src)) | val va_quick_Push_Secret (src: va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src)) | let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 57,
"end_line": 217,
"start_col": 0,
"start_line": 214
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | src: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_Push_Secret src) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_Push_Secret",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stackTaint",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_Push_Secret",
"Vale.X64.InsStack.va_wpProof_Push_Secret",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Push_Secret (src: va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src)) =
| (va_QProc (va_code_Push_Secret src)
([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src)
(va_wpProof_Push_Secret src)) | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.update_t | val update_t : a: Type -> block_length: Prims.nat -> Type | let update_t a block_length =
a -> b:S.seq uint8 { S.length b = block_length } -> a | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 55,
"end_line": 257,
"start_col": 0,
"start_line": 256
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options
inline_for_extraction noextract
let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy
(l: pos)
(b: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures (fun (blocks, rest) ->
S.length rest <= l /\
(S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==>
(S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==>
(S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\
S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks))
=
let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest
#pop-options | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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 | a: Type -> block_length: Prims.nat -> Type | Prims.Tot | [
"total"
] | [] | [
"Prims.nat",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Seq.Base.length"
] | [] | false | false | false | true | true | let update_t a block_length =
| a -> b: S.seq uint8 {S.length b = block_length} -> a | false |
|
Lib.UpdateMulti.fst | Lib.UpdateMulti.update_full | val update_full : block_length: Prims.pos ->
update:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s = block_length}
-> a) ->
update_last:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s < block_length}
-> a) ->
acc: a ->
input: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> a | let update_full #a
(block_length:pos)
(update: a -> (s:S.seq uint8 { S.length s = block_length }) -> a)
(update_last: a -> (s:S.seq uint8 { S.length s < block_length }) -> a)
(acc: a)
(input: S.seq uint8)
=
// let n_blocks = S.length input / block_length in
// let rem = S.length input % block_length in
// let blocks, rest = S.split input (n_blocks * block_length) in
let blocks, rest = split_at_last block_length input in
// assert (S.length rest = S.length input % block_length);
// Math.Lemmas.multiple_modulo_lemma n_blocks block_length;
// assert (S.length blocks % block_length = 0);
// assert (S.length rest < block_length);
update_last (mk_update_multi block_length update acc blocks) rest | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 67,
"end_line": 291,
"start_col": 0,
"start_line": 276
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options
inline_for_extraction noextract
let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy
(l: pos)
(b: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures (fun (blocks, rest) ->
S.length rest <= l /\
(S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==>
(S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==>
(S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\
S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks))
=
let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest
#pop-options
let update_t a block_length =
a -> b:S.seq uint8 { S.length b = block_length } -> a
let rec mk_update_multi #a (block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8): Pure a
(requires
S.length blocks % block_length = 0)
(ensures fun _ ->
True)
(decreases (S.length blocks))
=
if S.length blocks = 0 then
acc
else
let block, rem = split_block block_length blocks 1 in
let acc = update acc block in
mk_update_multi block_length update acc rem | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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 |
block_length: Prims.pos ->
update:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s = block_length}
-> a) ->
update_last:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s < block_length}
-> a) ->
acc: a ->
input: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> a | Prims.Tot | [
"total"
] | [] | [
"Prims.pos",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.b2t",
"Prims.op_Equality",
"Prims.int",
"Prims.l_or",
"Prims.op_GreaterThanOrEqual",
"Prims.op_GreaterThan",
"FStar.Seq.Base.length",
"Prims.op_LessThan",
"Lib.UpdateMulti.mk_update_multi",
"FStar.Pervasives.Native.tuple2",
"Lib.UpdateMulti.split_at_last"
] | [] | false | false | false | false | false | let update_full
#a
(block_length: pos)
(update: (a -> s: S.seq uint8 {S.length s = block_length} -> a))
(update_last: (a -> s: S.seq uint8 {S.length s < block_length} -> a))
(acc: a)
(input: S.seq uint8)
=
| let blocks, rest = split_at_last block_length input in
update_last (mk_update_multi block_length update acc blocks) rest | false |
|
Hacl.Impl.RSAPSS.Keys.fst | Hacl.Impl.RSAPSS.Keys.rsapss_load_skey | val rsapss_load_skey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t
-> rsapss_load_pkey:rsapss_load_pkey_st t ke modBits ->
rsapss_load_skey_st t ke modBits | val rsapss_load_skey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t
-> rsapss_load_pkey:rsapss_load_pkey_st t ke modBits ->
rsapss_load_skey_st t ke modBits | let rsapss_load_skey #t ke modBits kc rsapss_load_pkey eBits dBits nb eb db skey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let dbLen = blocks dBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
let pkeyLen = nLen +! nLen +! eLen in
let skeyLen = pkeyLen +! eLen in
LS.blocks_bits_lemma t (v dBits);
assert (v (blocks dbLen numb) == v dLen);
let pkey = sub skey 0ul pkeyLen in
let d = sub skey pkeyLen dLen in
let b = rsapss_load_pkey eBits nb eb pkey in
BN.bn_from_bytes_be dbLen db d;
let h1 = ST.get () in
LSeq.lemma_concat2 (v pkeyLen) (as_seq h1 pkey) (v dLen) (as_seq h1 d) (as_seq h1 skey);
let m1 = kc.check_exponent dBits d in
let b1 = b && BB.unsafe_bool_of_limb m1 in
b1 | {
"file_name": "code/rsapss/Hacl.Impl.RSAPSS.Keys.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 4,
"end_line": 298,
"start_col": 0,
"start_line": 270
} | module Hacl.Impl.RSAPSS.Keys
open FStar.HyperStack
open FStar.HyperStack.ST
open FStar.Mul
open Lib.IntTypes
open Lib.Buffer
open Hacl.Bignum.Definitions
module ST = FStar.HyperStack.ST
module B = LowStar.Buffer
module HS = FStar.HyperStack
module LSeq = Lib.Sequence
module LS = Hacl.Spec.RSAPSS
module BM = Hacl.Bignum.Montgomery
module BN = Hacl.Bignum
module BB = Hacl.Spec.Bignum.Base
module BE = Hacl.Bignum.Exponentiation
#reset-options "--z3rlimit 50 --fuel 0 --ifuel 0"
inline_for_extraction noextract
val rsapss_check_pkey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t ->
res:bool{res <==> LS.pkey_len_pre t (v modBits) (v eBits)}
let rsapss_check_pkey_len #t modBits eBits =
if 1ul <. modBits && 0ul <. eBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
nLen <=. 0xfffffffful /. (2ul *! bits) && eLen <=. 0xfffffffful /. bits &&
nLen +! nLen <=. 0xfffffffful -. eLen end
else false
inline_for_extraction noextract
val rsapss_check_skey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t
-> dBits:size_t ->
res:bool{res <==> LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
let rsapss_check_skey_len #t modBits eBits dBits =
if rsapss_check_pkey_len #t modBits eBits && 0ul <. dBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
dLen <=. 0xfffffffful /. bits &&
2ul *! nLen <=. 0xfffffffful -! eLen -! dLen end
else false
inline_for_extraction noextract
let bn_check_num_bits_st (t:limb_t) =
bs:size_t{0 < v bs /\ bits t * v (blocks bs (size (bits t))) <= max_size_t}
-> b:lbignum t (blocks bs (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h b)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.bn_check_num_bits (v bs) (as_seq h0 b))
inline_for_extraction noextract
val bn_check_num_bits: #t:limb_t -> bn_check_num_bits_st t
let bn_check_num_bits #t bs b =
[@inline_let] let bits = size (bits t) in
let bLen = blocks bs bits in
if bs =. bits *! bLen then ones t SEC else BN.bn_lt_pow2_mask bLen b bs
inline_for_extraction noextract
let rsapss_check_modulus_st (t:limb_t) =
modBits:size_t{0 < v modBits /\ bits t * v (blocks modBits (size (bits t))) <= max_size_t}
-> n:lbignum t (blocks modBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h n)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_modulus (v modBits) (as_seq h0 n))
inline_for_extraction noextract
val rsapss_check_modulus:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_modulus_st t
let rsapss_check_modulus #t bn_check_num_bits modBits n =
let nLen = blocks modBits (size (bits t)) in
let bits0 = BN.bn_is_odd nLen n in
let m0 = uint #t 0 -. bits0 in
let m1 = BN.bn_gt_pow2_mask nLen n (modBits -! 1ul) in
let m2 = bn_check_num_bits modBits n in
m0 &. (m1 &. m2)
inline_for_extraction noextract
let rsapss_check_exponent_st (t:limb_t) =
eBits:size_t{0 < v eBits /\ bits t * v (blocks eBits (size (bits t))) <= max_size_t}
-> e:lbignum t (blocks eBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h e)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_exponent (v eBits) (as_seq h0 e))
inline_for_extraction noextract
val rsapss_check_exponent:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_exponent_st t
let rsapss_check_exponent #t bn_check_num_bits eBits e =
let eLen = blocks eBits (size (bits t)) in
let m0 = BN.bn_is_zero_mask eLen e in
let m1 = bn_check_num_bits eBits e in
(lognot m0) &. m1
inline_for_extraction noextract
class rsapss_checks (t:limb_t) = {
check_num_bits: bn_check_num_bits_st t;
check_modulus: rsapss_check_modulus_st t;
check_exponent: rsapss_check_exponent_st t;
}
[@CInline]
let check_num_bits_u32 : bn_check_num_bits_st U32 =
bn_check_num_bits
[@CInline]
let check_modulus_u32 : rsapss_check_modulus_st U32 =
rsapss_check_modulus check_num_bits_u32
[@CInline]
let check_exponent_u32 : rsapss_check_exponent_st U32 =
rsapss_check_exponent check_num_bits_u32
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint32: rsapss_checks U32
let mk_runtime_rsapss_checks_uint32 = {
check_num_bits = check_num_bits_u32;
check_modulus = check_modulus_u32;
check_exponent = check_exponent_u32;
}
[@CInline]
let check_num_bits_u64 : bn_check_num_bits_st U64 =
bn_check_num_bits
[@CInline]
let check_modulus_u64 : rsapss_check_modulus_st U64 =
rsapss_check_modulus check_num_bits_u64
[@CInline]
let check_exponent_u64 : rsapss_check_exponent_st U64 =
rsapss_check_exponent check_num_bits_u64
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint64: rsapss_checks U64
let mk_runtime_rsapss_checks_uint64 = {
check_num_bits = check_num_bits_u64;
check_modulus = check_modulus_u64;
check_exponent = check_exponent_u64;
}
inline_for_extraction noextract
let mk_runtime_rsapss_checks (#t:limb_t) : rsapss_checks t =
match t with
| U32 -> mk_runtime_rsapss_checks_uint32
| U64 -> mk_runtime_rsapss_checks_uint64
//pkey = [n; r2; e]
inline_for_extraction noextract
let rsapss_load_pkey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t{LS.pkey_len_pre t (v modBits) (v eBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> pkey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h pkey /\
disjoint pkey nb /\ disjoint pkey eb)
(ensures fun h0 b h1 -> modifies (loc pkey) h0 h1 /\
(b, as_seq h1 pkey) == LS.rsapss_load_pkey (v modBits) (v eBits) (as_seq h0 nb) (as_seq h0 eb))
inline_for_extraction noextract
val rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
rsapss_load_pkey_st t ke modBits
let rsapss_load_pkey #t ke modBits kc eBits nb eb pkey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
assert (v ((modBits -! 1ul) /. bits) < v nLen);
LS.blocks_bits_lemma t (v modBits);
assert (v (blocks nbLen numb) == v nLen);
LS.blocks_bits_lemma t (v eBits);
assert (v (blocks ebLen numb) == v eLen);
let n = sub pkey 0ul nLen in
let r2 = sub pkey nLen nLen in
let e = sub pkey (nLen +! nLen) eLen in
BN.bn_from_bytes_be nbLen nb n;
ke.BE.precompr2 (modBits -! 1ul) n r2;
BN.bn_from_bytes_be ebLen eb e;
let h1 = ST.get () in
LSeq.lemma_concat3 (v nLen) (as_seq h1 n)
(v nLen) (as_seq h1 r2) (v eLen) (as_seq h1 e) (as_seq h1 pkey);
let m0 = kc.check_modulus modBits n in
let m1 = kc.check_exponent eBits e in
let m = m0 &. m1 in
BB.unsafe_bool_of_limb #t m
#set-options "--z3rlimit 300"
//skey = [pkey; d]
inline_for_extraction noextract
let rsapss_load_skey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t
-> dBits:size_t{LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> db:lbuffer uint8 (blocks dBits 8ul)
-> skey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t)) +! blocks dBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h db /\ live h skey /\
disjoint skey nb /\ disjoint skey eb /\ disjoint skey db)
(ensures fun h0 b h1 -> modifies (loc skey) h0 h1 /\
(b, as_seq h1 skey) == LS.rsapss_load_skey (v modBits) (v eBits) (v dBits)
(as_seq h0 nb) (as_seq h0 eb) (as_seq h0 db))
inline_for_extraction noextract
val rsapss_load_skey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t
-> rsapss_load_pkey:rsapss_load_pkey_st t ke modBits ->
rsapss_load_skey_st t ke modBits | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"LowStar.Monotonic.Buffer.fsti.checked",
"LowStar.Buffer.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Buffer.fsti.checked",
"Hacl.Spec.RSAPSS.fst.checked",
"Hacl.Spec.Bignum.Base.fst.checked",
"Hacl.Bignum.Montgomery.fsti.checked",
"Hacl.Bignum.Exponentiation.fsti.checked",
"Hacl.Bignum.Definitions.fst.checked",
"Hacl.Bignum.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Tactics.Typeclasses.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.HyperStack.ST.fsti.checked",
"FStar.HyperStack.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Impl.RSAPSS.Keys.fst"
} | [
{
"abbrev": true,
"full_module": "Hacl.Bignum.Exponentiation",
"short_module": "BE"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.Bignum.Base",
"short_module": "BB"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum",
"short_module": "BN"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum.Montgomery",
"short_module": "BM"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.RSAPSS",
"short_module": "LS"
},
{
"abbrev": true,
"full_module": "Lib.Sequence",
"short_module": "LSeq"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack.ST",
"short_module": "ST"
},
{
"abbrev": false,
"full_module": "Hacl.Bignum.Definitions",
"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.ST",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.HyperStack",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 0,
"initial_ifuel": 0,
"max_fuel": 0,
"max_ifuel": 0,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 300,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
ke: Hacl.Bignum.Exponentiation.exp t ->
modBits: Lib.IntTypes.size_t ->
kc: Hacl.Impl.RSAPSS.Keys.rsapss_checks t ->
rsapss_load_pkey: Hacl.Impl.RSAPSS.Keys.rsapss_load_pkey_st t ke modBits
-> Hacl.Impl.RSAPSS.Keys.rsapss_load_skey_st t ke modBits | Prims.Tot | [
"total"
] | [] | [
"Hacl.Bignum.Definitions.limb_t",
"Hacl.Bignum.Exponentiation.exp",
"Lib.IntTypes.size_t",
"Hacl.Impl.RSAPSS.Keys.rsapss_checks",
"Hacl.Impl.RSAPSS.Keys.rsapss_load_pkey_st",
"Hacl.Spec.RSAPSS.skey_len_pre",
"Lib.IntTypes.v",
"Lib.IntTypes.U32",
"Lib.IntTypes.PUB",
"Lib.Buffer.lbuffer",
"Lib.IntTypes.uint8",
"Hacl.Bignum.Definitions.blocks",
"FStar.UInt32.__uint_to_t",
"Hacl.Bignum.Definitions.lbignum",
"Lib.IntTypes.op_Plus_Bang",
"Lib.IntTypes.op_Star_Bang",
"Lib.IntTypes.size",
"Lib.IntTypes.bits",
"Prims.bool",
"Prims.op_AmpAmp",
"Hacl.Spec.Bignum.Base.unsafe_bool_of_limb",
"Hacl.Bignum.Definitions.limb",
"Hacl.Impl.RSAPSS.Keys.__proj__Mkrsapss_checks__item__check_exponent",
"Prims.unit",
"Lib.Sequence.lemma_concat2",
"Lib.Buffer.as_seq",
"Lib.Buffer.MUT",
"FStar.Monotonic.HyperStack.mem",
"FStar.HyperStack.ST.get",
"Hacl.Bignum.bn_from_bytes_be",
"Lib.Buffer.lbuffer_t",
"Lib.Buffer.sub",
"Prims._assert",
"Prims.eq2",
"Lib.IntTypes.range_t",
"Hacl.Spec.RSAPSS.blocks_bits_lemma",
"Lib.IntTypes.int_t",
"Prims.int",
"Prims.l_or",
"Lib.IntTypes.range",
"Prims.l_and",
"Prims.b2t",
"Prims.op_GreaterThan",
"Prims.op_LessThanOrEqual",
"Prims.op_Subtraction",
"Prims.pow2",
"Prims.op_Multiply",
"Hacl.Spec.Bignum.Definitions.blocks",
"FStar.UInt32.uint_to_t",
"FStar.UInt32.t",
"Lib.IntTypes.numbytes"
] | [] | false | false | false | false | false | let rsapss_load_skey #t ke modBits kc rsapss_load_pkey eBits dBits nb eb db skey =
| let h0 = ST.get () in
[@@ inline_let ]let bits = size (bits t) in
[@@ inline_let ]let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let dbLen = blocks dBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
let pkeyLen = nLen +! nLen +! eLen in
let skeyLen = pkeyLen +! eLen in
LS.blocks_bits_lemma t (v dBits);
assert (v (blocks dbLen numb) == v dLen);
let pkey = sub skey 0ul pkeyLen in
let d = sub skey pkeyLen dLen in
let b = rsapss_load_pkey eBits nb eb pkey in
BN.bn_from_bytes_be dbLen db d;
let h1 = ST.get () in
LSeq.lemma_concat2 (v pkeyLen) (as_seq h1 pkey) (v dLen) (as_seq h1 d) (as_seq h1 skey);
let m1 = kc.check_exponent dBits d in
let b1 = b && BB.unsafe_bool_of_limb m1 in
b1 | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.update_full_lazy | val update_full_lazy : block_length: Prims.pos ->
update:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s = block_length}
-> a) ->
update_last:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s <= block_length}
-> a) ->
acc: a ->
input: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> a | let update_full_lazy #a
(block_length:pos)
(update: a -> (s:S.seq uint8 { S.length s = block_length }) -> a)
(update_last: a -> (s:S.seq uint8 { S.length s <= block_length }) -> a)
(acc: a)
(input: S.seq uint8)
=
// let n_blocks = S.length input / block_length in
// let rem = S.length input % block_length in
// let n_blocks, rem = if rem = 0 && n_blocks > 0 then n_blocks - 1, block_length
// else n_blocks, rem in
// let blocks, rest = S.split input (n_blocks * block_length) in
let blocks, rest = split_at_last_lazy block_length input in
// assert (S.length rest % block_length = S.length input % block_length);
// Math.Lemmas.multiple_modulo_lemma n_blocks block_length;
// assert (S.length blocks % block_length = 0);
// assert (S.length rest <= block_length);
update_last (mk_update_multi block_length update acc blocks) rest | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 67,
"end_line": 314,
"start_col": 0,
"start_line": 297
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options
inline_for_extraction noextract
let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy
(l: pos)
(b: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures (fun (blocks, rest) ->
S.length rest <= l /\
(S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==>
(S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==>
(S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\
S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks))
=
let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest
#pop-options
let update_t a block_length =
a -> b:S.seq uint8 { S.length b = block_length } -> a
let rec mk_update_multi #a (block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8): Pure a
(requires
S.length blocks % block_length = 0)
(ensures fun _ ->
True)
(decreases (S.length blocks))
=
if S.length blocks = 0 then
acc
else
let block, rem = split_block block_length blocks 1 in
let acc = update acc block in
mk_update_multi block_length update acc rem
let update_full #a
(block_length:pos)
(update: a -> (s:S.seq uint8 { S.length s = block_length }) -> a)
(update_last: a -> (s:S.seq uint8 { S.length s < block_length }) -> a)
(acc: a)
(input: S.seq uint8)
=
// let n_blocks = S.length input / block_length in
// let rem = S.length input % block_length in
// let blocks, rest = S.split input (n_blocks * block_length) in
let blocks, rest = split_at_last block_length input in
// assert (S.length rest = S.length input % block_length);
// Math.Lemmas.multiple_modulo_lemma n_blocks block_length;
// assert (S.length blocks % block_length = 0);
// assert (S.length rest < block_length);
update_last (mk_update_multi block_length update acc blocks) rest
/// Same as [update_full] but we make sure the last block is not empty in order
/// to mimic the behavior of the streaming API where we lazily process the internal
/// block. Note that the length condition on update_last is not the same. | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": 100,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
block_length: Prims.pos ->
update:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s = block_length}
-> a) ->
update_last:
(_: a -> s: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 {FStar.Seq.Base.length s <= block_length}
-> a) ->
acc: a ->
input: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> a | Prims.Tot | [
"total"
] | [] | [
"Prims.pos",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.b2t",
"Prims.op_Equality",
"Prims.int",
"Prims.l_or",
"Prims.op_GreaterThanOrEqual",
"Prims.op_GreaterThan",
"FStar.Seq.Base.length",
"Prims.op_LessThanOrEqual",
"Lib.UpdateMulti.mk_update_multi",
"FStar.Pervasives.Native.tuple2",
"Lib.UpdateMulti.split_at_last_lazy"
] | [] | false | false | false | false | false | let update_full_lazy
#a
(block_length: pos)
(update: (a -> s: S.seq uint8 {S.length s = block_length} -> a))
(update_last: (a -> s: S.seq uint8 {S.length s <= block_length} -> a))
(acc: a)
(input: S.seq uint8)
=
| let blocks, rest = split_at_last_lazy block_length input in
update_last (mk_update_multi block_length update acc blocks) rest | false |
|
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_Store64_buffer128 | val va_quick_Store64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) | val va_quick_Store64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) | let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 32,
"end_line": 1416,
"start_col": 0,
"start_line": 1411
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
h: Vale.X64.Decls.va_operand_heaplet ->
dst: Vale.X64.Decls.va_operand_reg_opr64 ->
src: Vale.X64.Decls.va_operand_reg_opr64 ->
offset: Prims.int ->
t: Vale.Arch.HeapTypes_s.taint ->
upper: Prims.bool ->
b: Vale.X64.Memory.buffer128 ->
index: Prims.int
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_Store64_buffer128 h dst src offset t upper) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_heaplet",
"Vale.X64.Decls.va_operand_reg_opr64",
"Prims.int",
"Vale.Arch.HeapTypes_s.taint",
"Prims.bool",
"Vale.X64.Memory.buffer128",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_Store64_buffer128",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_mem",
"Vale.X64.QuickCode.va_mod_heaplet",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_Store64_buffer128",
"Vale.X64.InsVector.va_wpProof_Store64_buffer128",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Store64_buffer128
(h: va_operand_heaplet)
(dst src: va_operand_reg_opr64)
(offset: int)
(t: taint)
(upper: bool)
(b: buffer128)
(index: int)
: (va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
| (va_QProc (va_code_Store64_buffer128 h dst src offset t upper)
([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index)
(va_wpProof_Store64_buffer128 h dst src offset t upper b index)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_InitPshufbDupMask | val va_quick_InitPshufbDupMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbDupMask dst tmp)) | val va_quick_InitPshufbDupMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbDupMask dst tmp)) | let va_quick_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbDupMask dst tmp)) =
(va_QProc (va_code_InitPshufbDupMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbDupMask dst tmp) (va_wpProof_InitPshufbDupMask dst tmp)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 83,
"end_line": 1557,
"start_col": 0,
"start_line": 1554
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (())))
val va_wpProof_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbStableMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode
unit (va_code_InitPshufbStableMask dst tmp)) =
(va_QProc (va_code_InitPshufbStableMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbStableMask dst tmp) (va_wpProof_InitPshufbStableMask dst tmp))
//--
//-- InitPshufbDupMask
val va_code_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbDupMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbDupMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbDupMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbDupMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_InitPshufbDupMask dst tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_InitPshufbDupMask",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_InitPshufbDupMask",
"Vale.X64.InsVector.va_wpProof_InitPshufbDupMask",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_InitPshufbDupMask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufbDupMask dst tmp)) =
| (va_QProc (va_code_InitPshufbDupMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbDupMask dst tmp)
(va_wpProof_InitPshufbDupMask dst tmp)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_InitPshufb64Mask | val va_quick_InitPshufb64Mask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufb64Mask dst tmp)) | val va_quick_InitPshufb64Mask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufb64Mask dst tmp)) | let va_quick_InitPshufb64Mask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufb64Mask dst tmp)) =
(va_QProc (va_code_InitPshufb64Mask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufb64Mask dst tmp) (va_wpProof_InitPshufb64Mask dst tmp)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 81,
"end_line": 1594,
"start_col": 0,
"start_line": 1591
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (())))
val va_wpProof_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbStableMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode
unit (va_code_InitPshufbStableMask dst tmp)) =
(va_QProc (va_code_InitPshufbStableMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbStableMask dst tmp) (va_wpProof_InitPshufbStableMask dst tmp))
//--
//-- InitPshufbDupMask
val va_code_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbDupMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbDupMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbDupMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbDupMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbDupMask dst tmp)) =
(va_QProc (va_code_InitPshufbDupMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbDupMask dst tmp) (va_wpProof_InitPshufbDupMask dst tmp))
//--
//-- InitPshufb64Mask
val va_code_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufb64Mask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufb64Mask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufb64Mask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufb64Mask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufb64Mask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.X64.Decls.va_operand_xmm -> tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsVector.va_code_InitPshufb64Mask dst tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_InitPshufb64Mask",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_InitPshufb64Mask",
"Vale.X64.InsVector.va_wpProof_InitPshufb64Mask",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_InitPshufb64Mask (dst: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_InitPshufb64Mask dst tmp)) =
| (va_QProc (va_code_InitPshufb64Mask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufb64Mask dst tmp)
(va_wpProof_InitPshufb64Mask dst tmp)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_Load64_stack | val va_quick_Load64_stack (dst: va_operand_dst_opr64) (src: va_operand_reg_opr64) (offset: int)
: (va_quickCode unit (va_code_Load64_stack dst src offset)) | val va_quick_Load64_stack (dst: va_operand_dst_opr64) (src: va_operand_reg_opr64) (offset: int)
: (va_quickCode unit (va_code_Load64_stack dst src offset)) | let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 57,
"end_line": 260,
"start_col": 0,
"start_line": 257
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_dst_opr64 ->
src: Vale.X64.Decls.va_operand_reg_opr64 ->
offset: Prims.int
-> Vale.X64.QuickCode.va_quickCode Prims.unit
(Vale.X64.InsStack.va_code_Load64_stack dst src offset) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_dst_opr64",
"Vale.X64.Decls.va_operand_reg_opr64",
"Prims.int",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_Load64_stack",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_mod_dst_opr64",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_Load64_stack",
"Vale.X64.InsStack.va_wpProof_Load64_stack",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_Load64_stack (dst: va_operand_dst_opr64) (src: va_operand_reg_opr64) (offset: int)
: (va_quickCode unit (va_code_Load64_stack dst src offset)) =
| (va_QProc (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst])
(va_wp_Load64_stack dst src offset)
(va_wpProof_Load64_stack dst src offset)) | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_PushXmm | val va_quick_PushXmm (src: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PushXmm src tmp)) | val va_quick_PushXmm (src: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PushXmm src tmp)) | let va_quick_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm src tmp)) =
(va_QProc (va_code_PushXmm src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm src tmp) (va_wpProof_PushXmm src tmp)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 80,
"end_line": 313,
"start_col": 0,
"start_line": 310
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm src tmp) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | src: Vale.X64.Decls.va_operand_xmm -> tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_PushXmm src tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_PushXmm",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stackTaint",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_PushXmm",
"Vale.X64.InsStack.va_wpProof_PushXmm",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PushXmm (src: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PushXmm src tmp)) =
| (va_QProc (va_code_PushXmm src tmp)
([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp])
(va_wp_PushXmm src tmp)
(va_wpProof_PushXmm src tmp)) | false |
Vale.X64.InsVector.fsti | Vale.X64.InsVector.va_quick_XmmEqual | val va_quick_XmmEqual (x1 x2: va_operand_xmm) : (va_quickCode unit (va_code_XmmEqual x1 x2)) | val va_quick_XmmEqual (x1 x2: va_operand_xmm) : (va_quickCode unit (va_code_XmmEqual x1 x2)) | let va_quick_XmmEqual (x1:va_operand_xmm) (x2:va_operand_xmm) : (va_quickCode unit
(va_code_XmmEqual x1 x2)) =
(va_QProc (va_code_XmmEqual x1 x2) ([va_Mod_flags; va_Mod_reg64 rRax; va_Mod_reg64 rRdx;
va_mod_xmm x1]) (va_wp_XmmEqual x1 x2) (va_wpProof_XmmEqual x1 x2)) | {
"file_name": "obj/Vale.X64.InsVector.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 71,
"end_line": 1631,
"start_col": 0,
"start_line": 1628
} | module Vale.X64.InsVector
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.Arch.HeapTypes_s
open Vale.Arch.HeapImpl
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.CPU_Features_s
let buffer128_write (b:buffer128) (i:int) (v:quad32) (h:vale_heap) : Ghost vale_heap
(requires buffer_readable h b /\ buffer_writeable b)
(ensures fun _ -> True)
=
buffer_write b i v h
//-- Mem128_lemma
val va_code_Mem128_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Mem128_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Mem128_lemma : va_b0:va_code -> va_s0:va_state -> h:heaplet_id -> base:operand64 ->
offset:int -> t:taint -> b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mem128_lemma ()) va_s0 /\ va_get_ok va_s0 /\ (let
heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr heap_h b index /\
valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\ valid_taint_buf128 b heap_h
((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 + offset == buffer_addr b
heap_h + 16 `op_Multiply` index)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h base offset
t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem va_sM) ==
buffer_read b index heap_h) /\ va_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let heap_h = va_get_mem_heaplet h va_s0 in (OReg? base) /\ valid_src_addr
heap_h b index /\ valid_layout_buffer b (va_get_mem_layout va_s0) heap_h false /\
valid_taint_buf128 b heap_h ((va_get_mem_layout va_s0).vl_taint) t /\ eval_operand base va_s0 +
offset == buffer_addr b heap_h + 16 `op_Multiply` index) /\ (let va_sM = va_s0 in va_get_ok
va_sM /\ (let heap_h = va_get_mem_heaplet h va_s0 in valid_operand128 (va_opr_code_Mem128 h
base offset t) va_sM /\ load_mem128 (buffer_addr b heap_h + 16 `op_Multiply` index) (va_get_mem
va_sM) == buffer_read b index heap_h) ==> va_k va_sM (())))
val va_wpProof_Mem128_lemma : h:heaplet_id -> base:operand64 -> offset:int -> 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_Mem128_lemma h base offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mem128_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mem128_lemma (h:heaplet_id) (base:operand64) (offset:int) (t:taint) (b:buffer128)
(index:int) : (va_quickCode unit (va_code_Mem128_lemma ())) =
(va_QProc (va_code_Mem128_lemma ()) ([]) (va_wp_Mem128_lemma h base offset t b index)
(va_wpProof_Mem128_lemma h base offset t b index))
//--
//-- Paddd
val va_code_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Paddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Paddd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0 src) ==> va_k va_sM
(())))
val va_wpProof_Paddd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Paddd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Paddd dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Paddd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Paddd
dst src)) =
(va_QProc (va_code_Paddd dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Paddd dst src)
(va_wpProof_Paddd dst src))
//--
//-- VPaddd
val va_code_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot va_code
val va_codegen_success_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
Tot va_pbool
val va_lemma_VPaddd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPaddd dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Arch.Types.add_wrap_quad32 (va_eval_xmm va_s0 src1) (va_eval_xmm
va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPaddd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPaddd dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPaddd dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPaddd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPaddd dst src1 src2)) =
(va_QProc (va_code_VPaddd dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPaddd dst src1
src2) (va_wpProof_VPaddd dst src1 src2))
//--
//-- Pxor
val va_code_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pxor dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm va_s0
src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 dst) (va_eval_xmm
va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pxor : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pxor dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pxor dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pxor (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pxor dst
src)) =
(va_QProc (va_code_Pxor dst src) ([va_mod_xmm dst]) (va_wp_Pxor dst src) (va_wpProof_Pxor dst
src))
//--
//-- Pand
val va_code_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_code
val va_codegen_success_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> Tot va_pbool
val va_lemma_Pand : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pand dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32 #Vale.Def.Types_s.nat32 (fun
(di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si) (va_eval_xmm va_s0 dst) (va_eval_opr128
va_s0 src) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pand (dst:va_operand_xmm) (src:va_operand_opr128) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr128 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map2 #nat32
#Vale.Def.Types_s.nat32 (fun (di:nat32) (si:nat32) -> Vale.Arch.Types.iand32 di si)
(va_eval_xmm va_s0 dst) (va_eval_opr128 va_s0 src) ==> va_k va_sM (())))
val va_wpProof_Pand : dst:va_operand_xmm -> src:va_operand_opr128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pand dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pand dst src) ([va_mod_xmm dst]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pand (dst:va_operand_xmm) (src:va_operand_opr128) : (va_quickCode unit (va_code_Pand
dst src)) =
(va_QProc (va_code_Pand dst src) ([va_mod_xmm dst]) (va_wp_Pand dst src) (va_wpProof_Pand dst
src))
//--
//-- VPxor
val va_code_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 -> Tot
va_code
val va_codegen_success_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128
-> Tot va_pbool
val va_lemma_VPxor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_opr128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPxor dst src1 src2) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor (va_eval_xmm va_s0 src1) (va_eval_opr128
va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_opr128 src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.quad32_xor
(va_eval_xmm va_s0 src1) (va_eval_opr128 va_s0 src2) ==> va_k va_sM (())))
val va_wpProof_VPxor : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_opr128 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPxor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPxor dst src1 src2) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPxor (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_opr128) :
(va_quickCode unit (va_code_VPxor dst src1 src2)) =
(va_QProc (va_code_VPxor dst src1 src2) ([va_mod_xmm dst]) (va_wp_VPxor dst src1 src2)
(va_wpProof_VPxor dst src1 src2))
//--
//-- Pslld
val va_code_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Pslld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Pslld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pslld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pslld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishl32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pslld : dst:va_operand_xmm -> amt: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_Pslld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pslld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pslld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Pslld dst amt)) =
(va_QProc (va_code_Pslld dst amt) ([va_mod_xmm dst]) (va_wp_Pslld dst amt) (va_wpProof_Pslld dst
amt))
//--
//-- Psrld
val va_code_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_code
val va_codegen_success_Psrld : dst:va_operand_xmm -> amt:int -> Tot va_pbool
val va_lemma_Psrld : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> amt:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Psrld dst amt) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Psrld (dst:va_operand_xmm) (amt:int) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (0 <= amt /\ amt < 32) /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words.Four_s.four_map #nat32 #Vale.Def.Types_s.nat32 (fun
(i:nat32) -> Vale.Arch.Types.ishr32 i amt) (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Psrld : dst:va_operand_xmm -> amt: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_Psrld dst amt va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Psrld dst amt) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Psrld (dst:va_operand_xmm) (amt:int) : (va_quickCode unit (va_code_Psrld dst amt)) =
(va_QProc (va_code_Psrld dst amt) ([va_mod_xmm dst]) (va_wp_Psrld dst amt) (va_wpProof_Psrld dst
amt))
//--
//-- Palignr4
val va_code_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr4 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr4 dst src)) =
(va_QProc (va_code_Palignr4 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr4 dst src)
(va_wpProof_Palignr4 dst src))
//--
//-- Palignr8
val va_code_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Palignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Palignr8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) ==> va_k va_sM (())))
val va_wpProof_Palignr8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Palignr8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Palignr8 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Palignr8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Palignr8 dst src)) =
(va_QProc (va_code_Palignr8 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Palignr8 dst src)
(va_wpProof_Palignr8 dst src))
//--
//-- VPalignr8
val va_code_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPalignr8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src1:va_operand_xmm -> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPalignr8 dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\
avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)) ==> va_k va_sM (())))
val va_wpProof_VPalignr8 : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPalignr8 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPalignr8 dst src1 src2)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPalignr8 (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPalignr8 dst src1 src2)) =
(va_QProc (va_code_VPalignr8 dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPalignr8 dst
src1 src2) (va_wpProof_VPalignr8 dst src1 src2))
//--
//-- Shufpd
val va_code_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Shufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Shufpd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ permutation < 4 /\
sse_enabled /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if (permutation = 0 ||
permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst))) (va_if
(permutation = 0 || permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))) (va_if (permutation = 0 ||
permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src))) ==> va_k va_sM
(())))
val va_wpProof_Shufpd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Shufpd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Shufpd dst src permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Shufpd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Shufpd dst src permutation)) =
(va_QProc (va_code_Shufpd dst src permutation) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Shufpd dst
src permutation) (va_wpProof_Shufpd dst src permutation))
//--
//-- VShufpd
val va_code_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> Tot va_code
val va_codegen_success_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> permutation:nat8 -> Tot va_pbool
val va_lemma_VShufpd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm -> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VShufpd dst src1 src2 permutation) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 2) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src1)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src2)) (if (permutation = 0
|| permutation = 1) then Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)
else Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2)) /\ va_state_eq va_sM
(va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ permutation < 4 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 (va_if (permutation = 0 || permutation = 2) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src1)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src1))) (va_if (permutation = 0
|| permutation = 2) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0
src1)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src1))) (va_if
(permutation = 0 || permutation = 1) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 src2)) (fun _ -> Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 src2))) (va_if (permutation = 0 || permutation = 1) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src2)) (fun _ ->
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src2))) ==> va_k va_sM (())))
val va_wpProof_VShufpd : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
permutation:nat8 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VShufpd dst src1 src2 permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VShufpd dst src1 src2 permutation)
([va_Mod_flags; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VShufpd (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm)
(permutation:nat8) : (va_quickCode unit (va_code_VShufpd dst src1 src2 permutation)) =
(va_QProc (va_code_VShufpd dst src1 src2 permutation) ([va_Mod_flags; va_mod_xmm dst])
(va_wp_VShufpd dst src1 src2 permutation) (va_wpProof_VShufpd dst src1 src2 permutation))
//--
//-- Pshufb
val va_code_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM =
va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm
va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_Pshufb : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Pshufb
dst src)) =
(va_QProc (va_code_Pshufb dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb dst src)
(va_wpProof_Pshufb dst src))
//--
//-- VPshufb
val va_code_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm -> Tot
va_code
val va_codegen_success_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm
-> Tot va_pbool
val va_lemma_VPshufb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src1:va_operand_xmm
-> src2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPshufb dst src1 src2) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok va_s0 /\ avx_enabled
/\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159
134810123 67438087 66051))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0)))))
[@ va_qattr]
let va_wp_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src1 va_s0 /\ va_is_src_xmm src2 va_s0 /\ va_get_ok
va_s0 /\ avx_enabled /\ va_eval_xmm va_s0 src2 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_xmm va_s0 src1) ==> va_k va_sM (())))
val va_wpProof_VPshufb : dst:va_operand_xmm -> src1:va_operand_xmm -> src2:va_operand_xmm ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPshufb dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPshufb dst src1 src2) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPshufb (dst:va_operand_xmm) (src1:va_operand_xmm) (src2:va_operand_xmm) :
(va_quickCode unit (va_code_VPshufb dst src1 src2)) =
(va_QProc (va_code_VPshufb dst src1 src2) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_VPshufb dst
src1 src2) (va_wpProof_VPshufb dst src1 src2))
//--
//-- PshufbStable
val va_code_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbStable : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbStable dst src) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) /\ va_eval_xmm va_sM dst == Vale.Arch.Types.reverse_bytes_nat32_quad32
(va_eval_xmm va_s0 dst) ==> va_k va_sM (())))
val va_wpProof_PshufbStable : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbStable dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbStable dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbStable (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbStable dst src)) =
(va_QProc (va_code_PshufbStable dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbStable dst
src) (va_wpProof_PshufbStable dst src))
//--
//-- PshufbDup
val va_code_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_PshufbDup : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PshufbDup dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_PshufbDup : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PshufbDup dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PshufbDup dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PshufbDup (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_PshufbDup dst src)) =
(va_QProc (va_code_PshufbDup dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_PshufbDup dst src)
(va_wpProof_PshufbDup dst src))
//--
//-- Pshufb64
val va_code_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pshufb64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufb64 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_xmm va_s0 src ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_xmm va_s0 src == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ (forall (va_x_dst:va_value_xmm) (va_x_efl:Vale.X64.Flags.t) . let va_sM
= va_upd_flags va_x_efl (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm
va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__lo0
(va_eval_xmm va_s0 dst))) (Vale.Def.Types_s.reverse_bytes_nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)))
(Vale.Def.Types_s.reverse_bytes_nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm
va_s0 dst))) ==> va_k va_sM (())))
val va_wpProof_Pshufb64 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufb64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufb64 dst src) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufb64 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pshufb64 dst src)) =
(va_QProc (va_code_Pshufb64 dst src) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_Pshufb64 dst src)
(va_wpProof_Pshufb64 dst src))
//--
//-- Pshufd
val va_code_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot va_code
val va_codegen_success_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 -> Tot
va_pbool
val va_lemma_Pshufd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> permutation:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pshufd dst src permutation) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (Vale.Def.Types_s.byte_to_twobits permutation)))
(Vale.Def.Types_s.select_word (va_eval_xmm va_s0 src)
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (Vale.Def.Types_s.byte_to_twobits permutation)))
==> va_k va_sM (())))
val va_wpProof_Pshufd : dst:va_operand_xmm -> src:va_operand_xmm -> permutation:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pshufd dst src permutation va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pshufd dst src permutation)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pshufd (dst:va_operand_xmm) (src:va_operand_xmm) (permutation:nat8) : (va_quickCode
unit (va_code_Pshufd dst src permutation)) =
(va_QProc (va_code_Pshufd dst src permutation) ([va_mod_xmm dst]) (va_wp_Pshufd dst src
permutation) (va_wpProof_Pshufd dst src permutation))
//--
//-- Pcmpeqd
val va_code_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Pcmpeqd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pcmpeqd dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) (if
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) then 4294967295 else 0) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (va_if
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) (va_if (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src) =
Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 dst)) (fun _ -> 4294967295) (fun
_ -> 0)) ==> va_k va_sM (())))
val va_wpProof_Pcmpeqd : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pcmpeqd dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pcmpeqd dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pcmpeqd (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Pcmpeqd dst src)) =
(va_QProc (va_code_Pcmpeqd dst src) ([va_mod_xmm dst]) (va_wp_Pcmpeqd dst src)
(va_wpProof_Pcmpeqd dst src))
//--
//-- Pextrq
val va_code_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot va_code
val va_codegen_success_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 -> Tot
va_pbool
val va_lemma_Pextrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_xmm -> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pextrq dst src index) va_s0 /\ va_is_dst_dst_opr64 dst
va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == (if (index = 0) then Vale.Arch.Types.lo64 (va_eval_xmm va_sM
src) else Vale.Arch.Types.hi64 (va_eval_xmm va_sM src)) /\ va_state_eq va_sM (va_update_ok
va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM = va_upd_operand_dst_opr64 dst
va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst == va_if (index = 0) (fun _ ->
Vale.Arch.Types.lo64 (va_eval_xmm va_sM src)) (fun _ -> Vale.Arch.Types.hi64 (va_eval_xmm va_sM
src)) ==> va_k va_sM (())))
val va_wpProof_Pextrq : dst:va_operand_dst_opr64 -> src:va_operand_xmm -> index:nat8 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pextrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pextrq dst src index)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pextrq (dst:va_operand_dst_opr64) (src:va_operand_xmm) (index:nat8) : (va_quickCode
unit (va_code_Pextrq dst src index)) =
(va_QProc (va_code_Pextrq dst src index) ([va_mod_dst_opr64 dst]) (va_wp_Pextrq dst src index)
(va_wpProof_Pextrq dst src index))
//--
//-- Pinsrd
val va_code_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrd : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrd dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_eval_opr64 va_s0 src <
pow2_32 /\ index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_s0 src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_eval_opr64 va_s0 src < pow2_32 /\ index < 4 /\ (forall (va_x_dst:va_value_xmm) . let va_sM =
va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_xmm va_sM dst ==
Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) (va_eval_opr64 va_s0 src) index ==> va_k
va_sM (())))
val va_wpProof_Pinsrd : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrd dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrd dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrd (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrd dst src index)) =
(va_QProc (va_code_Pinsrd dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrd dst src index)
(va_wpProof_Pinsrd dst src index))
//--
//-- PinsrdImm
val va_code_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrdImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat32
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrdImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst) immediate index
/\ va_eval_reg_opr64 va_sM tmp == immediate /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 4 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat32 (va_eval_xmm va_s0 dst)
immediate index /\ va_eval_reg_opr64 va_sM tmp == immediate ==> va_k va_sM (())))
val va_wpProof_PinsrdImm : dst:va_operand_xmm -> immediate:nat32 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrdImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrdImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrdImm (dst:va_operand_xmm) (immediate:nat32) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrdImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrdImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrdImm dst immediate index tmp) (va_wpProof_PinsrdImm dst immediate index tmp))
//--
//-- Pinsrq
val va_code_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot va_code
val va_codegen_success_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> Tot
va_pbool
val va_lemma_Pinsrq : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_opr64
-> index:nat8
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pinsrq dst src index) va_s0 /\ va_is_dst_xmm dst va_s0
/\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) (va_eval_opr64
va_sM src) index /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM
va_s0))))
[@ va_qattr]
let va_wp_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_opr64 src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ index
< 2 /\ (forall (va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in
va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0
dst) (va_eval_opr64 va_sM src) index ==> va_k va_sM (())))
val va_wpProof_Pinsrq : dst:va_operand_xmm -> src:va_operand_opr64 -> index:nat8 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pinsrq dst src index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pinsrq dst src index) ([va_mod_xmm
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pinsrq (dst:va_operand_xmm) (src:va_operand_opr64) (index:nat8) : (va_quickCode unit
(va_code_Pinsrq dst src index)) =
(va_QProc (va_code_Pinsrq dst src index) ([va_mod_xmm dst]) (va_wp_Pinsrq dst src index)
(va_wpProof_Pinsrq dst src index))
//--
//-- PinsrqImm
val va_code_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PinsrqImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> immediate:nat64
-> index:nat8 -> tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PinsrqImm dst immediate index tmp) va_s0 /\
va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst) immediate index
/\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8) (tmp:va_operand_reg_opr64)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
index < 2 /\ (forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0) in va_get_ok
va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Types_s.insert_nat64 (va_eval_xmm va_s0 dst)
immediate index ==> va_k va_sM (())))
val va_wpProof_PinsrqImm : dst:va_operand_xmm -> immediate:nat64 -> index:nat8 ->
tmp:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PinsrqImm dst immediate index tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PinsrqImm dst immediate index tmp)
([va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PinsrqImm (dst:va_operand_xmm) (immediate:nat64) (index:nat8)
(tmp:va_operand_reg_opr64) : (va_quickCode unit (va_code_PinsrqImm dst immediate index tmp)) =
(va_QProc (va_code_PinsrqImm dst immediate index tmp) ([va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PinsrqImm dst immediate index tmp) (va_wpProof_PinsrqImm dst immediate index tmp))
//--
//-- VPslldq4
val va_code_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_VPslldq4 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_VPslldq4 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_VPslldq4 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_VPslldq4 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_VPslldq4 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_VPslldq4 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_VPslldq4 dst src)) =
(va_QProc (va_code_VPslldq4 dst src) ([va_mod_xmm dst]) (va_wp_VPslldq4 dst src)
(va_wpProof_VPslldq4 dst src))
//--
//-- Vpslldq8
val va_code_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpslldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpslldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_xmm va_s0 src)) ==> va_k va_sM (())))
val va_wpProof_Vpslldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpslldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpslldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpslldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpslldq8 dst src)) =
(va_QProc (va_code_Vpslldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpslldq8 dst src)
(va_wpProof_Vpslldq8 dst src))
//--
//-- Vpsrldq8
val va_code_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Vpsrldq8 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Vpsrldq8 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ avx_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32
(Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_xmm va_s0 src))
(Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_xmm va_s0 src)) 0 0 ==> va_k va_sM (())))
val va_wpProof_Vpsrldq8 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Vpsrldq8 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Vpsrldq8 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit
(va_code_Vpsrldq8 dst src)) =
(va_QProc (va_code_Vpsrldq8 dst src) ([va_mod_xmm dst]) (va_wp_Vpsrldq8 dst src)
(va_wpProof_Vpsrldq8 dst src))
//--
//-- Mov128
val va_code_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_code
val va_codegen_success_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> Tot va_pbool
val va_lemma_Mov128 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm -> src:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Mov128 dst src) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == va_eval_xmm va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_src_xmm src va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == va_eval_xmm va_s0 src ==> va_k va_sM (())))
val va_wpProof_Mov128 : dst:va_operand_xmm -> src:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Mov128 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Mov128 dst src) ([va_mod_xmm dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Mov128 (dst:va_operand_xmm) (src:va_operand_xmm) : (va_quickCode unit (va_code_Mov128
dst src)) =
(va_QProc (va_code_Mov128 dst src) ([va_mod_xmm dst]) (va_wp_Mov128 dst src) (va_wpProof_Mov128
dst src))
//--
//-- Load128_buffer
val va_code_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm -> src:va_operand_reg_opr64
-> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_xmm -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load128_buffer h dst src offset t) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_xmm dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_dst:va_value_xmm) . let va_sM = va_upd_operand_xmm dst va_x_dst va_s0 in va_get_ok va_sM
/\ va_eval_xmm va_sM dst == Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h) ==>
va_k va_sM (())))
val va_wpProof_Load128_buffer : h:va_operand_heaplet -> dst:va_operand_xmm ->
src:va_operand_reg_opr64 -> offset:int -> 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 src 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 src offset t)
([va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load128_buffer (h:va_operand_heaplet) (dst:va_operand_xmm) (src:va_operand_reg_opr64)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Load128_buffer h
dst src offset t)) =
(va_QProc (va_code_Load128_buffer h dst src offset t) ([va_mod_xmm dst]) (va_wp_Load128_buffer h
dst src offset t b index) (va_wpProof_Load128_buffer h dst src offset t b index))
//--
//-- LoadBe64_buffer128
val va_code_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_LoadBe64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadBe64_buffer128 h dst src offset t upper) va_s0 /\
va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + (if upper then
8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr64 va_sM dst == Vale.Def.Types_s.reverse_bytes_nat64 (if upper then
Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) else
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_heaplet h va_s0 /\ va_is_dst_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ movbe_enabled /\ Vale.X64.Decls.valid_src_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 src + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index + va_if upper
(fun _ -> 8) (fun _ -> 0) /\ (forall (va_x_dst:va_value_reg_opr64) . let va_sM =
va_upd_operand_reg_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_reg_opr64 va_sM dst
== Vale.Def.Types_s.reverse_bytes_nat64 (va_if upper (fun _ -> Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h))) (fun _ ->
Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_sM h)))) ==>
va_k va_sM (())))
val va_wpProof_LoadBe64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_LoadBe64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadBe64_buffer128 h dst src offset t
upper) ([va_mod_reg_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_LoadBe64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_LoadBe64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_LoadBe64_buffer128 h dst src offset t upper) ([va_mod_reg_opr64 dst])
(va_wp_LoadBe64_buffer128 h dst src offset t upper b index) (va_wpProof_LoadBe64_buffer128 h
dst src offset t upper b index))
//--
//-- Store128_buffer
val va_code_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_code
val va_codegen_success_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> t:taint -> Tot va_pbool
val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_xmm -> offset:int -> t:taint -> b:buffer128 ->
index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store128_buffer h dst src offset t) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet
va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM
(va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_xmm src va_s0 /\
va_get_ok va_s0 /\ sse_enabled /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128
(va_eval_heaplet va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer
#Vale.X64.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\
Vale.X64.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout
va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0 dst + offset == Vale.X64.Memory.buffer_addr
#Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (va_eval_xmm va_s0 src) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store128_buffer : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_xmm -> offset:int -> 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 dst src offset t b index va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_buffer h dst src offset t)
([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store128_buffer (h:va_operand_heaplet) (dst:va_operand_reg_opr64) (src:va_operand_xmm)
(offset:int) (t:taint) (b:buffer128) (index:int) : (va_quickCode unit (va_code_Store128_buffer h
dst src offset t)) =
(va_QProc (va_code_Store128_buffer h dst src offset t) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store128_buffer h dst src offset t b index) (va_wpProof_Store128_buffer h dst src offset
t b index))
//--
//-- Store64_buffer128
val va_code_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_code
val va_codegen_success_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> Tot va_pbool
val va_lemma_Store64_buffer128 : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet ->
dst:va_operand_reg_opr64 -> src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool ->
b:buffer128 -> index:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Store64_buffer128 h dst src offset t upper) va_s0 /\
va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + (if upper then 8 else 0)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.insert_nat64
(Vale.X64.Decls.buffer128_read b index (va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src)
(if upper then 1 else 0)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM
(va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))
[@ va_qattr]
let va_wp_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_heaplet h va_s0 /\ va_is_src_reg_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Decls.valid_dst_addr #Vale.X64.Memory.vuint128 (va_eval_heaplet
va_s0 h) b index /\ Vale.X64.Memory.valid_layout_buffer #Vale.X64.Memory.vuint128 b
(va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.X64.Memory.valid_taint_buf128
b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr64 va_s0
dst + offset == Vale.X64.Memory.buffer_addr #Vale.X64.Memory.vuint128 b (va_eval_heaplet va_s0
h) + 16 `op_Multiply` index + va_if upper (fun _ -> 8) (fun _ -> 0) /\ (forall
(va_x_h:va_value_heaplet) (va_x_mem:vale_heap) . let va_sM = va_upd_mem va_x_mem
(va_upd_operand_heaplet h va_x_h va_s0) in va_get_ok va_sM /\ va_eval_heaplet va_sM h ==
buffer128_write b index (Vale.Def.Types_s.insert_nat64 (Vale.X64.Decls.buffer128_read b index
(va_eval_heaplet va_s0 h)) (va_eval_reg_opr64 va_s0 src) (va_if upper (fun _ -> 1) (fun _ ->
0))) (va_eval_heaplet va_s0 h) ==> va_k va_sM (())))
val va_wpProof_Store64_buffer128 : h:va_operand_heaplet -> dst:va_operand_reg_opr64 ->
src:va_operand_reg_opr64 -> offset:int -> t:taint -> upper:bool -> 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_Store64_buffer128 h dst src offset t upper b index va_s0
va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store64_buffer128 h dst src offset t
upper) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Store64_buffer128 (h:va_operand_heaplet) (dst:va_operand_reg_opr64)
(src:va_operand_reg_opr64) (offset:int) (t:taint) (upper:bool) (b:buffer128) (index:int) :
(va_quickCode unit (va_code_Store64_buffer128 h dst src offset t upper)) =
(va_QProc (va_code_Store64_buffer128 h dst src offset t upper) ([va_Mod_mem; va_mod_heaplet h])
(va_wp_Store64_buffer128 h dst src offset t upper b index) (va_wpProof_Store64_buffer128 h dst
src offset t upper b index))
//--
//-- ZeroXmm
val va_code_ZeroXmm : dst:va_operand_xmm -> Tot va_code
val va_codegen_success_ZeroXmm : dst:va_operand_xmm -> Tot va_pbool
val va_lemma_ZeroXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_ZeroXmm dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 0 /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_ok va_sM (va_update_operand_xmm dst va_sM va_s0)))))
[@ va_qattr]
let va_wp_ZeroXmm (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_operand_xmm dst
va_x_dst va_s0) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 0 ==> va_k va_sM (())))
val va_wpProof_ZeroXmm : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_ZeroXmm dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_ZeroXmm dst) ([va_Mod_flags;
va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_ZeroXmm (dst:va_operand_xmm) : (va_quickCode unit (va_code_ZeroXmm dst)) =
(va_QProc (va_code_ZeroXmm dst) ([va_Mod_flags; va_mod_xmm dst]) (va_wp_ZeroXmm dst)
(va_wpProof_ZeroXmm dst))
//--
//-- InitPshufbMask
val va_code_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
67438087 66051 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 67438087 66051 ==> va_k va_sM (())))
val va_wpProof_InitPshufbMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbMask dst tmp)) =
(va_QProc (va_code_InitPshufbMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_InitPshufbMask dst tmp) (va_wpProof_InitPshufbMask dst tmp))
//--
//-- InitPshufbStableMask
val va_code_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbStableMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbStableMask dst tmp) va_s0 /\ va_is_dst_xmm
dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 66051 67438087
134810123 202182159 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 66051 67438087 134810123 202182159 ==> va_k va_sM (())))
val va_wpProof_InitPshufbStableMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbStableMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbStableMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbStableMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode
unit (va_code_InitPshufbStableMask dst tmp)) =
(va_QProc (va_code_InitPshufbStableMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbStableMask dst tmp) (va_wpProof_InitPshufbStableMask dst tmp))
//--
//-- InitPshufbDupMask
val va_code_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufbDupMask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufbDupMask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 202182159 134810123
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 202182159 134810123 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufbDupMask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufbDupMask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufbDupMask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufbDupMask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufbDupMask dst tmp)) =
(va_QProc (va_code_InitPshufbDupMask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufbDupMask dst tmp) (va_wpProof_InitPshufbDupMask dst tmp))
//--
//-- InitPshufb64Mask
val va_code_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_InitPshufb64Mask : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_InitPshufb64Mask dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 67438087 66051
202182159 134810123 /\ va_state_eq va_sM (va_update_flags va_sM (va_update_ok va_sM
(va_update_operand_reg_opr64 tmp va_sM (va_update_operand_xmm dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_InitPshufb64Mask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
(forall (va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_operand_reg_opr64 tmp va_x_tmp (va_upd_operand_xmm dst
va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 67438087 66051 202182159 134810123 ==> va_k va_sM (())))
val va_wpProof_InitPshufb64Mask : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state
-> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_InitPshufb64Mask dst tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_InitPshufb64Mask dst tmp)
([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_InitPshufb64Mask (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_InitPshufb64Mask dst tmp)) =
(va_QProc (va_code_InitPshufb64Mask dst tmp) ([va_Mod_flags; va_mod_reg_opr64 tmp; va_mod_xmm
dst]) (va_wp_InitPshufb64Mask dst tmp) (va_wpProof_InitPshufb64Mask dst tmp))
//--
//-- XmmEqual
val va_code_XmmEqual : x1:va_operand_xmm -> x2:va_operand_xmm -> Tot va_code
val va_codegen_success_XmmEqual : x1:va_operand_xmm -> x2:va_operand_xmm -> Tot va_pbool
val va_lemma_XmmEqual : va_b0:va_code -> va_s0:va_state -> x1:va_operand_xmm -> x2:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_XmmEqual x1 x2) va_s0 /\ va_is_dst_xmm x1 va_s0 /\
va_is_src_xmm x2 va_s0 /\ va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (if
(va_eval_xmm va_s0 x1 = va_eval_xmm va_s0 x2) then (va_get_reg64 rRax va_sM = 0) else
(va_get_reg64 rRax va_sM > 0)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_reg64
rRax va_sM (va_update_reg64 rRdx va_sM (va_update_ok va_sM (va_update_operand_xmm x1 va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_XmmEqual (x1:va_operand_xmm) (x2:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit
-> Type0)) : Type0 =
(va_is_dst_xmm x1 va_s0 /\ va_is_src_xmm x2 va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall
(va_x_x1:va_value_xmm) (va_x_rdx:nat64) (va_x_rax:nat64) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_reg64 rRax va_x_rax (va_upd_reg64 rRdx va_x_rdx
(va_upd_operand_xmm x1 va_x_x1 va_s0))) in va_get_ok va_sM /\ va_if (va_eval_xmm va_s0 x1 =
va_eval_xmm va_s0 x2) (fun _ -> va_get_reg64 rRax va_sM = 0) (fun _ -> va_get_reg64 rRax va_sM
> 0) ==> va_k va_sM (())))
val va_wpProof_XmmEqual : x1:va_operand_xmm -> x2:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_XmmEqual x1 x2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_XmmEqual x1 x2) ([va_Mod_flags;
va_Mod_reg64 rRax; va_Mod_reg64 rRdx; va_mod_xmm x1]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapTypes_s.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsVector.fsti"
} | [
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapTypes_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | x1: Vale.X64.Decls.va_operand_xmm -> x2: Vale.X64.Decls.va_operand_xmm
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsVector.va_code_XmmEqual x1 x2) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsVector.va_code_XmmEqual",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRax",
"Vale.X64.Machine_s.rRdx",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsVector.va_wp_XmmEqual",
"Vale.X64.InsVector.va_wpProof_XmmEqual",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_XmmEqual (x1 x2: va_operand_xmm) : (va_quickCode unit (va_code_XmmEqual x1 x2)) =
| (va_QProc (va_code_XmmEqual x1 x2)
([va_Mod_flags; va_Mod_reg64 rRax; va_Mod_reg64 rRdx; va_mod_xmm x1])
(va_wp_XmmEqual x1 x2)
(va_wpProof_XmmEqual x1 x2)) | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.mk_update_multi | val mk_update_multi
(#a: _)
(block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8)
: Pure a
(requires S.length blocks % block_length = 0)
(ensures fun _ -> True)
(decreases (S.length blocks)) | val mk_update_multi
(#a: _)
(block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8)
: Pure a
(requires S.length blocks % block_length = 0)
(ensures fun _ -> True)
(decreases (S.length blocks)) | let rec mk_update_multi #a (block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8): Pure a
(requires
S.length blocks % block_length = 0)
(ensures fun _ ->
True)
(decreases (S.length blocks))
=
if S.length blocks = 0 then
acc
else
let block, rem = split_block block_length blocks 1 in
let acc = update acc block in
mk_update_multi block_length update acc rem | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 47,
"end_line": 274,
"start_col": 0,
"start_line": 259
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options
inline_for_extraction noextract
let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy
(l: pos)
(b: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures (fun (blocks, rest) ->
S.length rest <= l /\
(S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==>
(S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==>
(S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\
S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks))
=
let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest
#pop-options
let update_t a block_length =
a -> b:S.seq uint8 { S.length b = block_length } -> a | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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 |
block_length: Prims.pos ->
update: Lib.UpdateMulti.update_t a block_length ->
acc: a ->
blocks: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> Prims.Pure a | Prims.Pure | [
""
] | [] | [
"Prims.pos",
"Lib.UpdateMulti.update_t",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.op_Equality",
"Prims.int",
"FStar.Seq.Base.length",
"Prims.bool",
"Lib.UpdateMulti.mk_update_multi",
"FStar.Pervasives.Native.tuple2",
"Lib.UpdateMulti.split_block",
"Prims.b2t",
"Prims.op_Modulus",
"Prims.l_True"
] | [
"recursion"
] | false | false | false | false | false | let rec mk_update_multi
#a
(block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8)
: Pure a
(requires S.length blocks % block_length = 0)
(ensures fun _ -> True)
(decreases (S.length blocks)) =
| if S.length blocks = 0
then acc
else
let block, rem = split_block block_length blocks 1 in
let acc = update acc block in
mk_update_multi block_length update acc rem | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_PopXmm | val va_quick_PopXmm (dst: va_operand_xmm) (tmp: va_operand_reg_opr64) (expected_xmm: quad32)
: (va_quickCode unit (va_code_PopXmm dst tmp)) | val va_quick_PopXmm (dst: va_operand_xmm) (tmp: va_operand_reg_opr64) (expected_xmm: quad32)
: (va_quickCode unit (va_code_PopXmm dst tmp)) | let va_quick_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32) :
(va_quickCode unit (va_code_PopXmm dst tmp)) =
(va_QProc (va_code_PopXmm dst tmp) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp;
va_mod_xmm dst]) (va_wp_PopXmm dst tmp expected_xmm) (va_wpProof_PopXmm dst tmp expected_xmm)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 98,
"end_line": 371,
"start_col": 0,
"start_line": 368
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm src tmp) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm src tmp)) =
(va_QProc (va_code_PushXmm src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm src tmp) (va_wpProof_PushXmm src tmp))
//--
//-- PopXmm
val va_code_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PopXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm dst tmp) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))))
[@ va_qattr]
let va_wp_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> expected_xmm:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PopXmm dst tmp expected_xmm va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PopXmm dst tmp) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
expected_xmm: Vale.X64.Decls.quad32
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_PopXmm dst tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.quad32",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_PopXmm",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_PopXmm",
"Vale.X64.InsStack.va_wpProof_PopXmm",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PopXmm (dst: va_operand_xmm) (tmp: va_operand_reg_opr64) (expected_xmm: quad32)
: (va_quickCode unit (va_code_PopXmm dst tmp)) =
| (va_QProc (va_code_PopXmm dst tmp)
([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PopXmm dst tmp expected_xmm)
(va_wpProof_PopXmm dst tmp expected_xmm)) | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.split_block | val split_block (block_length: pos) (data: S.seq uint8) (n: nat)
: Pure (S.seq uint8 & S.seq uint8)
(requires n <= S.length data / block_length)
(ensures
fun (l, r) ->
0 <= n * block_length /\ n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (let open FStar.Mul in n * block_length)) /\
r == snd (Seq.split data (let open FStar.Mul in n * block_length)) /\ S.append l r == data
) | val split_block (block_length: pos) (data: S.seq uint8) (n: nat)
: Pure (S.seq uint8 & S.seq uint8)
(requires n <= S.length data / block_length)
(ensures
fun (l, r) ->
0 <= n * block_length /\ n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (let open FStar.Mul in n * block_length)) /\
r == snd (Seq.split data (let open FStar.Mul in n * block_length)) /\ S.append l r == data
) | let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 6,
"end_line": 94,
"start_col": 0,
"start_line": 70
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": [
"smt.arith.nl=false"
],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | block_length: Prims.pos -> data: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 -> n: Prims.nat
-> Prims.Pure
(FStar.Seq.Base.seq Lib.UpdateMulti.uint8 * FStar.Seq.Base.seq Lib.UpdateMulti.uint8) | Prims.Pure | [] | [] | [
"Prims.pos",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.nat",
"FStar.Pervasives.Native.Mktuple2",
"Prims.unit",
"Prims._assert",
"Prims.eq2",
"FStar.Seq.Base.append",
"FStar.Pervasives.Native.snd",
"FStar.Seq.Properties.split",
"FStar.Mul.op_Star",
"FStar.Pervasives.Native.fst",
"Prims.b2t",
"Prims.op_Equality",
"Prims.int",
"FStar.Seq.Base.length",
"Prims.op_Subtraction",
"FStar.Seq.Base.lemma_eq_intro",
"FStar.Pervasives.Native.tuple2",
"Lib.UpdateMulti.split_nb_lem",
"Prims.op_LessThanOrEqual",
"Prims.op_Division",
"Prims.l_and",
"Prims.op_Modulus"
] | [] | false | false | false | false | false | let split_block (block_length: pos) (data: S.seq uint8) (n: nat)
: Pure (S.seq uint8 & S.seq uint8)
(requires n <= S.length data / block_length)
(ensures
fun (l, r) ->
0 <= n * block_length /\ n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (let open FStar.Mul in n * block_length)) /\
r == snd (Seq.split data (let open FStar.Mul in n * block_length)) /\ S.append l r == data
) =
| split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert (S.length l = n * block_length);
assert (S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (let open FStar.Mul in n * block_length)));
assert (r == snd (Seq.split data (let open FStar.Mul in n * block_length)));
assert (S.append l r == data);
l, r | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.split_at_last_nb_rem | val split_at_last_nb_rem (block_length: pos) (data_length: nat)
: Pure (nat & nat)
(requires True)
(ensures
fun (n, rem) ->
0 <= n * block_length /\ n * block_length <= data_length /\
n * block_length % block_length = 0 /\ (rem % block_length = data_length % block_length) /\
n = data_length / block_length /\ rem = data_length % block_length /\ 0 <= rem /\
rem < block_length /\ data_length = n * block_length + rem) | val split_at_last_nb_rem (block_length: pos) (data_length: nat)
: Pure (nat & nat)
(requires True)
(ensures
fun (n, rem) ->
0 <= n * block_length /\ n * block_length <= data_length /\
n * block_length % block_length = 0 /\ (rem % block_length = data_length % block_length) /\
n = data_length / block_length /\ rem = data_length % block_length /\ 0 <= rem /\
rem < block_length /\ data_length = n * block_length + rem) | let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 8,
"end_line": 121,
"start_col": 0,
"start_line": 102
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": [
"smt.arith.nl=false"
],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | block_length: Prims.pos -> data_length: Prims.nat -> Prims.Pure (Prims.nat * Prims.nat) | Prims.Pure | [] | [] | [
"Prims.pos",
"Prims.nat",
"FStar.Pervasives.Native.Mktuple2",
"Prims.unit",
"FStar.Math.Lemmas.euclidean_division_definition",
"Lib.UpdateMulti.split_nb_lem",
"FStar.Math.Lemmas.nat_over_pos_is_nat",
"Prims.int",
"Prims.op_Modulus",
"Prims.op_Division",
"FStar.Pervasives.Native.tuple2",
"Prims.l_True",
"Prims.l_and",
"Prims.b2t",
"Prims.op_LessThanOrEqual",
"FStar.Mul.op_Star",
"Prims.op_Equality",
"Prims.op_LessThan",
"Prims.op_Addition"
] | [] | false | false | false | false | false | let split_at_last_nb_rem (block_length: pos) (data_length: nat)
: Pure (nat & nat)
(requires True)
(ensures
fun (n, rem) ->
0 <= n * block_length /\ n * block_length <= data_length /\
n * block_length % block_length = 0 /\ (rem % block_length = data_length % block_length) /\
n = data_length / block_length /\ rem = data_length % block_length /\ 0 <= rem /\
rem < block_length /\ data_length = n * block_length + rem) =
| let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.split_at_last | val split_at_last (block_length: pos) (data: S.seq uint8)
: Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures
fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\ 0 <= Seq.length r /\
Seq.length r < block_length /\ Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) | val split_at_last (block_length: pos) (data: S.seq uint8)
: Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures
fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\ 0 <= Seq.length r /\
Seq.length r < block_length /\ Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) | let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 5,
"end_line": 139,
"start_col": 0,
"start_line": 125
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": [
"smt.arith.nl=false"
],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | block_length: Prims.pos -> data: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> Prims.Pure
(FStar.Seq.Base.seq Lib.UpdateMulti.uint8 * FStar.Seq.Base.seq Lib.UpdateMulti.uint8) | Prims.Pure | [] | [] | [
"Prims.pos",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.nat",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Pervasives.Native.tuple2",
"Lib.UpdateMulti.split_block",
"Lib.UpdateMulti.split_at_last_nb_rem",
"FStar.Seq.Base.length",
"Prims.l_True",
"Prims.l_and",
"Prims.b2t",
"Prims.op_Equality",
"Prims.int",
"Prims.op_Modulus",
"Prims.l_imp",
"Prims.op_LessThanOrEqual",
"Prims.op_LessThan",
"Prims.op_Addition",
"Prims.eq2",
"FStar.Seq.Base.append"
] | [] | false | false | false | false | false | let split_at_last (block_length: pos) (data: S.seq uint8)
: Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures
fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\ 0 <= Seq.length r /\
Seq.length r < block_length /\ Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
| let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_PushXmm_Secret | val va_quick_PushXmm_Secret (src: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PushXmm_Secret src tmp)) | val va_quick_PushXmm_Secret (src: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PushXmm_Secret src tmp)) | let va_quick_PushXmm_Secret (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm_Secret src tmp)) =
(va_QProc (va_code_PushXmm_Secret src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm_Secret src tmp) (va_wpProof_PushXmm_Secret src tmp)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 94,
"end_line": 426,
"start_col": 0,
"start_line": 423
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm src tmp) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm src tmp)) =
(va_QProc (va_code_PushXmm src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm src tmp) (va_wpProof_PushXmm src tmp))
//--
//-- PopXmm
val va_code_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PopXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm dst tmp) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))))
[@ va_qattr]
let va_wp_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> expected_xmm:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PopXmm dst tmp expected_xmm va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PopXmm dst tmp) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32) :
(va_quickCode unit (va_code_PopXmm dst tmp)) =
(va_QProc (va_code_PopXmm dst tmp) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp;
va_mod_xmm dst]) (va_wp_PopXmm dst tmp expected_xmm) (va_wpProof_PopXmm dst tmp expected_xmm))
//--
//-- PushXmm_Secret
val va_code_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_PushXmm_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm_Secret src tmp) va_s0 /\ va_is_src_xmm src
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp
va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp
(va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Secret (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm_Secret (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Secret
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm_Secret src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm_Secret src tmp)
([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k
((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | src: Vale.X64.Decls.va_operand_xmm -> tmp: Vale.X64.Decls.va_operand_reg_opr64
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_PushXmm_Secret src tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_PushXmm_Secret",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stackTaint",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_PushXmm_Secret",
"Vale.X64.InsStack.va_wpProof_PushXmm_Secret",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PushXmm_Secret (src: va_operand_xmm) (tmp: va_operand_reg_opr64)
: (va_quickCode unit (va_code_PushXmm_Secret src tmp)) =
| (va_QProc (va_code_PushXmm_Secret src tmp)
([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp])
(va_wp_PushXmm_Secret src tmp)
(va_wpProof_PushXmm_Secret src tmp)) | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.concat_blocks_modulo | val concat_blocks_modulo (block_len: pos) (s1 s2: S.seq uint8)
: Lemma (requires S.length s1 % block_len = 0 /\ S.length s2 % block_len = 0)
(ensures S.length (S.append s1 s2) % block_len = 0) | val concat_blocks_modulo (block_len: pos) (s1 s2: S.seq uint8)
: Lemma (requires S.length s1 % block_len = 0 /\ S.length s2 % block_len = 0)
(ensures S.length (S.append s1 s2) % block_len = 0) | let concat_blocks_modulo (block_len: pos) (s1 s2: S.seq uint8): Lemma
(requires
S.length s1 % block_len = 0 /\
S.length s2 % block_len = 0)
(ensures
S.length (S.append s1 s2) % block_len = 0)
=
let input = S.append s1 s2 in
let input1 = s1 in
let input2 = s2 in
calc (==) {
S.length input % block_len;
(==) { S.lemma_len_append input1 input2 }
(S.length input1 + S.length input2) % block_len;
(==) {
FStar.Math.Lemmas.modulo_distributivity (S.length input1) (S.length input2) (block_len)
}
(S.length input1 % block_len + S.length input2 % block_len) % block_len;
(==) { (* hyp *) }
0 % block_len;
(==) { FStar.Math.Lemmas.small_mod 0 block_len }
0;
} | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 3,
"end_line": 343,
"start_col": 0,
"start_line": 321
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options
inline_for_extraction noextract
let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy
(l: pos)
(b: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures (fun (blocks, rest) ->
S.length rest <= l /\
(S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==>
(S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==>
(S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\
S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks))
=
let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest
#pop-options
let update_t a block_length =
a -> b:S.seq uint8 { S.length b = block_length } -> a
let rec mk_update_multi #a (block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8): Pure a
(requires
S.length blocks % block_length = 0)
(ensures fun _ ->
True)
(decreases (S.length blocks))
=
if S.length blocks = 0 then
acc
else
let block, rem = split_block block_length blocks 1 in
let acc = update acc block in
mk_update_multi block_length update acc rem
let update_full #a
(block_length:pos)
(update: a -> (s:S.seq uint8 { S.length s = block_length }) -> a)
(update_last: a -> (s:S.seq uint8 { S.length s < block_length }) -> a)
(acc: a)
(input: S.seq uint8)
=
// let n_blocks = S.length input / block_length in
// let rem = S.length input % block_length in
// let blocks, rest = S.split input (n_blocks * block_length) in
let blocks, rest = split_at_last block_length input in
// assert (S.length rest = S.length input % block_length);
// Math.Lemmas.multiple_modulo_lemma n_blocks block_length;
// assert (S.length blocks % block_length = 0);
// assert (S.length rest < block_length);
update_last (mk_update_multi block_length update acc blocks) rest
/// Same as [update_full] but we make sure the last block is not empty in order
/// to mimic the behavior of the streaming API where we lazily process the internal
/// block. Note that the length condition on update_last is not the same.
#push-options "--z3rlimit 100"
let update_full_lazy #a
(block_length:pos)
(update: a -> (s:S.seq uint8 { S.length s = block_length }) -> a)
(update_last: a -> (s:S.seq uint8 { S.length s <= block_length }) -> a)
(acc: a)
(input: S.seq uint8)
=
// let n_blocks = S.length input / block_length in
// let rem = S.length input % block_length in
// let n_blocks, rem = if rem = 0 && n_blocks > 0 then n_blocks - 1, block_length
// else n_blocks, rem in
// let blocks, rest = S.split input (n_blocks * block_length) in
let blocks, rest = split_at_last_lazy block_length input in
// assert (S.length rest % block_length = S.length input % block_length);
// Math.Lemmas.multiple_modulo_lemma n_blocks block_length;
// assert (S.length blocks % block_length = 0);
// assert (S.length rest <= block_length);
update_last (mk_update_multi block_length update acc blocks) rest
#pop-options
/// Lemmas
/// ====== | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": [
"smt.arith.nl=false"
],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
block_len: Prims.pos ->
s1: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 ->
s2: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> FStar.Pervasives.Lemma
(requires FStar.Seq.Base.length s1 % block_len = 0 /\ FStar.Seq.Base.length s2 % block_len = 0
) (ensures FStar.Seq.Base.length (FStar.Seq.Base.append s1 s2) % block_len = 0) | FStar.Pervasives.Lemma | [
"lemma"
] | [] | [
"Prims.pos",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"FStar.Calc.calc_finish",
"Prims.int",
"Prims.eq2",
"Prims.op_Modulus",
"FStar.Seq.Base.length",
"Prims.Cons",
"FStar.Preorder.relation",
"Prims.Nil",
"Prims.unit",
"FStar.Calc.calc_step",
"Prims.op_Addition",
"FStar.Calc.calc_init",
"FStar.Calc.calc_pack",
"FStar.Seq.Base.lemma_len_append",
"Prims.squash",
"FStar.Math.Lemmas.modulo_distributivity",
"FStar.Math.Lemmas.small_mod",
"FStar.Seq.Base.append",
"Prims.l_and",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Pervasives.pattern"
] | [] | false | false | true | false | false | let concat_blocks_modulo (block_len: pos) (s1 s2: S.seq uint8)
: Lemma (requires S.length s1 % block_len = 0 /\ S.length s2 % block_len = 0)
(ensures S.length (S.append s1 s2) % block_len = 0) =
| let input = S.append s1 s2 in
let input1 = s1 in
let input2 = s2 in
calc ( == ) {
S.length input % block_len;
( == ) { S.lemma_len_append input1 input2 }
(S.length input1 + S.length input2) % block_len;
( == ) { FStar.Math.Lemmas.modulo_distributivity (S.length input1) (S.length input2) (block_len) }
(S.length input1 % block_len + S.length input2 % block_len) % block_len;
( == ) { () }
0 % block_len;
( == ) { FStar.Math.Lemmas.small_mod 0 block_len }
0;
} | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.split_nb_lem | val split_nb_lem (block_length: pos) (data_length n: nat)
: Lemma (requires n <= data_length / block_length)
(ensures
(0 <= n * block_length /\ n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) | val split_nb_lem (block_length: pos) (data_length n: nat)
: Lemma (requires n <= data_length / block_length)
(ensures
(0 <= n * block_length /\ n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) | let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
} | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 3,
"end_line": 65,
"start_col": 0,
"start_line": 27
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": [
"smt.arith.nl=false"
],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | block_length: Prims.pos -> data_length: Prims.nat -> n: Prims.nat
-> FStar.Pervasives.Lemma (requires n <= data_length / block_length)
(ensures
0 <= n * block_length /\ n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length) | FStar.Pervasives.Lemma | [
"lemma"
] | [] | [
"Prims.pos",
"Prims.nat",
"FStar.Calc.calc_finish",
"Prims.int",
"Prims.eq2",
"Prims.op_Modulus",
"Prims.Cons",
"FStar.Preorder.relation",
"Prims.Nil",
"Prims.unit",
"FStar.Calc.calc_step",
"Prims.op_Addition",
"FStar.Mul.op_Star",
"Prims.op_Minus",
"FStar.Calc.calc_init",
"FStar.Calc.calc_pack",
"FStar.Math.Lemmas.modulo_distributivity",
"Prims.squash",
"FStar.Math.Lemmas.paren_mul_right",
"FStar.Math.Lemmas.multiple_modulo_lemma",
"FStar.Math.Lemmas.lemma_mod_add_distr",
"Prims.op_Subtraction",
"Prims.b2t",
"Prims.op_LessThanOrEqual",
"Prims.op_Division",
"FStar.Math.Lemmas.lemma_mult_le_right",
"FStar.Math.Lemmas.euclidean_division_definition",
"Prims._assert",
"Prims.op_Equality",
"Prims.op_GreaterThanOrEqual",
"FStar.Math.Lemmas.nat_over_pos_is_nat",
"FStar.Math.Lemmas.nat_times_nat_is_nat",
"Prims.l_and",
"FStar.Pervasives.pattern"
] | [] | false | false | true | false | false | let split_nb_lem (block_length: pos) (data_length n: nat)
: Lemma (requires n <= data_length / block_length)
(ensures
(0 <= n * block_length /\ n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
| let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert (bl >= 0);
assert (bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert (bl % block_length = 0);
calc ( <= ) {
bl;
( <= ) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
( <= ) { () }
(data_length / block_length) * block_length + data_length % block_length;
( == ) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc ( == ) {
r % block_length;
( == ) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
( == ) { Math.Lemmas.paren_mul_right (- 1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
( == ) { Math.Lemmas.multiple_modulo_lemma (- n) block_length }
(data_length % block_length) % block_length;
( == ) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
} | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.refine_with_tag | val refine_with_tag (#tag_t #data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t)
: Tot Type0 | val refine_with_tag (#tag_t #data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t)
: Tot Type0 | let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } ) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 37,
"end_line": 25,
"start_col": 0,
"start_line": 24
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16 | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 | tag_of_data: (_: data_t -> Prims.GTot tag_t) -> x: tag_t -> Type0 | Prims.Tot | [
"total"
] | [] | [
"Prims.eq2"
] | [] | false | false | false | false | true | let refine_with_tag (#tag_t #data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t)
: Tot Type0 =
| (y: data_t{tag_of_data y == x}) | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.synth_tagged_union_data | val synth_tagged_union_data
(#tag_t #data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t | val synth_tagged_union_data
(#tag_t #data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t | let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 3,
"end_line": 35,
"start_col": 0,
"start_line": 28
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } ) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 |
tag_of_data: (_: data_t -> Prims.GTot tag_t) ->
tg: tag_t ->
x: MiniParse.Spec.TSum.refine_with_tag tag_of_data tg
-> data_t | Prims.Tot | [
"total"
] | [] | [
"MiniParse.Spec.TSum.refine_with_tag"
] | [] | false | false | false | false | false | let synth_tagged_union_data
(#tag_t #data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t =
| x | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.split_at_last_st | val split_at_last_st (block_length data_length: UInt32.t)
: Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures
(fun r ->
let n_blocks, rem = r in
let n_blocks', rem' =
split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length)
in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem')) | val split_at_last_st (block_length data_length: UInt32.t)
: Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures
(fun r ->
let n_blocks, rem = r in
let n_blocks', rem' =
split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length)
in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem')) | let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 17,
"end_line": 228,
"start_col": 0,
"start_line": 213
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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 | block_length: FStar.UInt32.t -> data_length: FStar.UInt32.t
-> Prims.Pure (FStar.UInt32.t * FStar.UInt32.t) | Prims.Pure | [] | [] | [
"FStar.UInt32.t",
"Prims.op_AmpAmp",
"FStar.UInt32.op_Greater_Hat",
"FStar.UInt32.__uint_to_t",
"Prims.op_Equality",
"FStar.Pervasives.Native.Mktuple2",
"FStar.UInt32.op_Subtraction_Hat",
"FStar.UInt32.op_Star_Hat",
"Prims.bool",
"FStar.Pervasives.Native.tuple2",
"FStar.UInt32.op_Percent_Hat",
"FStar.UInt32.op_Slash_Hat",
"Prims.b2t",
"Prims.op_disEquality",
"Prims.nat",
"Prims.l_and",
"Prims.eq2",
"Prims.int",
"Prims.l_or",
"FStar.UInt.size",
"FStar.UInt32.n",
"Prims.op_GreaterThanOrEqual",
"FStar.UInt32.v",
"Lib.UpdateMulti.split_at_last_lazy_nb_rem",
"FStar.UInt32.uint_to_t"
] | [] | false | false | false | false | false | let split_at_last_st (block_length data_length: UInt32.t)
: Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures
(fun r ->
let n_blocks, rem = r in
let n_blocks', rem' =
split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length)
in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem')) =
| let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul
then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else n_blocks, rem | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.sum_case | val sum_case : tag_of_data: (_: _ -> _) -> case: _ -> Type | let sum_case = sum_case' | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 24,
"end_line": 132,
"start_col": 0,
"start_line": 132
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf
let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s)
noeq
type sum_case'
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(case: tag_t)
= | Case:
(ty: Type0) ->
(p: parser_spec ty) ->
(s: serializer_spec p) ->
(ty_to_data: (ty -> Tot (refine_with_tag tag_of_data case))) ->
(data_to_ty: (refine_with_tag tag_of_data case -> Tot ty)) ->
(u: squash (synth_inverse ty_to_data data_to_ty /\ synth_inverse data_to_ty ty_to_data)) ->
sum_case' tag_of_data case | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 | tag_of_data: (_: _ -> _) -> case: _ -> Type | Prims.Tot | [
"total"
] | [] | [
"MiniParse.Spec.TSum.sum_case'"
] | [] | false | false | false | true | true | let sum_case =
| sum_case' | false |
|
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.bare_serialize_tagged_union | val bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Tot (bare_serializer data_t) | val bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Tot (bare_serializer data_t) | let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 51,
"end_line": 61,
"start_col": 0,
"start_line": 50
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 |
st: MiniParse.Spec.Base.serializer_spec pt ->
tag_of_data: (_: data_t -> Prims.GTot tag_t) ->
s: (t: tag_t -> MiniParse.Spec.Base.serializer_spec (p t))
-> MiniParse.Spec.Base.bare_serializer data_t | Prims.Tot | [
"total"
] | [] | [
"MiniParse.Spec.Base.parser_spec",
"MiniParse.Spec.Base.serializer_spec",
"MiniParse.Spec.TSum.refine_with_tag",
"FStar.Seq.Base.append",
"MiniParse.Spec.Base.byte",
"MiniParse.Spec.Base.serialize",
"MiniParse.Spec.Base.bytes",
"MiniParse.Spec.Base.bare_serializer"
] | [] | false | false | false | false | false | let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Tot (bare_serializer data_t) =
| fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d) | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.hprop | val hprop : Type | let hprop = HS.mem -> prop | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 26,
"end_line": 72,
"start_col": 0,
"start_line": 72
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i))
[@__reduce__]
let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128
//////////////////////////////////////////////////////////////////////////////////////////
//lowstar_sig pre post:
// Interepreting a vale pre/post as a Low* function type | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | Type | Prims.Tot | [
"total"
] | [] | [
"FStar.Monotonic.HyperStack.mem",
"Prims.prop"
] | [] | false | false | false | true | true | let hprop =
| HS.mem -> prop | false |
|
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.hsprop | val hsprop : Type | let hsprop = HS.mem -> VS.vale_state -> prop | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 44,
"end_line": 73,
"start_col": 0,
"start_line": 73
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i))
[@__reduce__]
let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128
//////////////////////////////////////////////////////////////////////////////////////////
//lowstar_sig pre post:
// Interepreting a vale pre/post as a Low* function type
////////////////////////////////////////////////////////////////////////////////////////// | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | Type | Prims.Tot | [
"total"
] | [] | [
"FStar.Monotonic.HyperStack.mem",
"Vale.X64.State.vale_state",
"Prims.prop"
] | [] | false | false | false | true | true | let hsprop =
| HS.mem -> VS.vale_state -> prop | false |
|
Test.Vectors.Chacha20Poly1305.fst | Test.Vectors.Chacha20Poly1305.output11 | val output11:(b: B.buffer UInt8.t {B.length b = 2027 /\ B.recallable b}) | val output11:(b: B.buffer UInt8.t {B.length b = 2027 /\ B.recallable b}) | let output11: (b: B.buffer UInt8.t { B.length b = 2027 /\ B.recallable b }) =
[@inline_let] let l = [ 0x52uy; 0x34uy; 0xb3uy; 0x65uy; 0x3buy; 0xb7uy; 0xe5uy; 0xd3uy; 0xabuy; 0x49uy; 0x17uy; 0x60uy; 0xd2uy; 0x52uy; 0x56uy; 0xdfuy; 0xdfuy; 0x34uy; 0x56uy; 0x82uy; 0xe2uy; 0xbeuy; 0xe5uy; 0xe1uy; 0x28uy; 0xd1uy; 0x4euy; 0x5fuy; 0x4fuy; 0x01uy; 0x7duy; 0x3fuy; 0x99uy; 0x6buy; 0x30uy; 0x6euy; 0x1auy; 0x7cuy; 0x4cuy; 0x8euy; 0x62uy; 0x81uy; 0xaeuy; 0x86uy; 0x3fuy; 0x6buy; 0xd0uy; 0xb5uy; 0xa9uy; 0xcfuy; 0x50uy; 0xf1uy; 0x02uy; 0x12uy; 0xa0uy; 0x0buy; 0x24uy; 0xe9uy; 0xe6uy; 0x72uy; 0x89uy; 0x2cuy; 0x52uy; 0x1buy; 0x34uy; 0x38uy; 0xf8uy; 0x75uy; 0x5fuy; 0xa0uy; 0x74uy; 0xe2uy; 0x99uy; 0xdduy; 0xa6uy; 0x4buy; 0x14uy; 0x50uy; 0x4euy; 0xf1uy; 0xbeuy; 0xd6uy; 0x9euy; 0xdbuy; 0xb2uy; 0x24uy; 0x27uy; 0x74uy; 0x12uy; 0x4auy; 0x78uy; 0x78uy; 0x17uy; 0xa5uy; 0x58uy; 0x8euy; 0x2fuy; 0xf9uy; 0xf4uy; 0x8duy; 0xeeuy; 0x03uy; 0x88uy; 0xaeuy; 0xb8uy; 0x29uy; 0xa1uy; 0x2fuy; 0x4buy; 0xeeuy; 0x92uy; 0xbduy; 0x87uy; 0xb3uy; 0xceuy; 0x34uy; 0x21uy; 0x57uy; 0x46uy; 0x04uy; 0x49uy; 0x0cuy; 0x80uy; 0xf2uy; 0x01uy; 0x13uy; 0xa1uy; 0x55uy; 0xb3uy; 0xffuy; 0x44uy; 0x30uy; 0x3cuy; 0x1cuy; 0xd0uy; 0xefuy; 0xbcuy; 0x18uy; 0x74uy; 0x26uy; 0xaduy; 0x41uy; 0x5buy; 0x5buy; 0x3euy; 0x9auy; 0x7auy; 0x46uy; 0x4fuy; 0x16uy; 0xd6uy; 0x74uy; 0x5auy; 0xb7uy; 0x3auy; 0x28uy; 0x31uy; 0xd8uy; 0xaeuy; 0x26uy; 0xacuy; 0x50uy; 0x53uy; 0x86uy; 0xf2uy; 0x56uy; 0xd7uy; 0x3fuy; 0x29uy; 0xbcuy; 0x45uy; 0x68uy; 0x8euy; 0xcbuy; 0x98uy; 0x64uy; 0xdduy; 0xc9uy; 0xbauy; 0xb8uy; 0x4buy; 0x7buy; 0x82uy; 0xdduy; 0x14uy; 0xa7uy; 0xcbuy; 0x71uy; 0x72uy; 0x00uy; 0x5cuy; 0xaduy; 0x7buy; 0x6auy; 0x89uy; 0xa4uy; 0x3duy; 0xbfuy; 0xb5uy; 0x4buy; 0x3euy; 0x7cuy; 0x5auy; 0xcfuy; 0xb8uy; 0xa1uy; 0xc5uy; 0x6euy; 0xc8uy; 0xb6uy; 0x31uy; 0x57uy; 0x7buy; 0xdfuy; 0xa5uy; 0x7euy; 0xb1uy; 0xd6uy; 0x42uy; 0x2auy; 0x31uy; 0x36uy; 0xd1uy; 0xd0uy; 0x3fuy; 0x7auy; 0xe5uy; 0x94uy; 0xd6uy; 0x36uy; 0xa0uy; 0x6fuy; 0xb7uy; 0x40uy; 0x7duy; 0x37uy; 0xc6uy; 0x55uy; 0x7cuy; 0x50uy; 0x40uy; 0x6duy; 0x29uy; 0x89uy; 0xe3uy; 0x5auy; 0xaeuy; 0x97uy; 0xe7uy; 0x44uy; 0x49uy; 0x6euy; 0xbduy; 0x81uy; 0x3duy; 0x03uy; 0x93uy; 0x06uy; 0x12uy; 0x06uy; 0xe2uy; 0x41uy; 0x12uy; 0x4auy; 0xf1uy; 0x6auy; 0xa4uy; 0x58uy; 0xa2uy; 0xfbuy; 0xd2uy; 0x15uy; 0xbauy; 0xc9uy; 0x79uy; 0xc9uy; 0xceuy; 0x5euy; 0x13uy; 0xbbuy; 0xf1uy; 0x09uy; 0x04uy; 0xccuy; 0xfduy; 0xe8uy; 0x51uy; 0x34uy; 0x6auy; 0xe8uy; 0x61uy; 0x88uy; 0xdauy; 0xeduy; 0x01uy; 0x47uy; 0x84uy; 0xf5uy; 0x73uy; 0x25uy; 0xf9uy; 0x1cuy; 0x42uy; 0x86uy; 0x07uy; 0xf3uy; 0x5buy; 0x1auy; 0x01uy; 0xb3uy; 0xebuy; 0x24uy; 0x32uy; 0x8duy; 0xf6uy; 0xeduy; 0x7cuy; 0x4buy; 0xebuy; 0x3cuy; 0x36uy; 0x42uy; 0x28uy; 0xdfuy; 0xdfuy; 0xb6uy; 0xbeuy; 0xd9uy; 0x8cuy; 0x52uy; 0xd3uy; 0x2buy; 0x08uy; 0x90uy; 0x8cuy; 0xe7uy; 0x98uy; 0x31uy; 0xe2uy; 0x32uy; 0x8euy; 0xfcuy; 0x11uy; 0x48uy; 0x00uy; 0xa8uy; 0x6auy; 0x42uy; 0x4auy; 0x02uy; 0xc6uy; 0x4buy; 0x09uy; 0xf1uy; 0xe3uy; 0x49uy; 0xf3uy; 0x45uy; 0x1fuy; 0x0euy; 0xbcuy; 0x56uy; 0xe2uy; 0xe4uy; 0xdfuy; 0xfbuy; 0xebuy; 0x61uy; 0xfauy; 0x24uy; 0xc1uy; 0x63uy; 0x75uy; 0xbbuy; 0x47uy; 0x75uy; 0xafuy; 0xe1uy; 0x53uy; 0x16uy; 0x96uy; 0x21uy; 0x85uy; 0x26uy; 0x11uy; 0xb3uy; 0x76uy; 0xe3uy; 0x23uy; 0xa1uy; 0x6buy; 0x74uy; 0x37uy; 0xd0uy; 0xdeuy; 0x06uy; 0x90uy; 0x71uy; 0x5duy; 0x43uy; 0x88uy; 0x9buy; 0x00uy; 0x54uy; 0xa6uy; 0x75uy; 0x2fuy; 0xa1uy; 0xc2uy; 0x0buy; 0x73uy; 0x20uy; 0x1duy; 0xb6uy; 0x21uy; 0x79uy; 0x57uy; 0x3fuy; 0xfauy; 0x09uy; 0xbeuy; 0x8auy; 0x33uy; 0xc3uy; 0x52uy; 0xf0uy; 0x1duy; 0x82uy; 0x31uy; 0xd1uy; 0x55uy; 0xb5uy; 0x6cuy; 0x99uy; 0x25uy; 0xcfuy; 0x5cuy; 0x32uy; 0xceuy; 0xe9uy; 0x0duy; 0xfauy; 0x69uy; 0x2cuy; 0xd5uy; 0x0duy; 0xc5uy; 0x6duy; 0x86uy; 0xd0uy; 0x0cuy; 0x3buy; 0x06uy; 0x50uy; 0x79uy; 0xe8uy; 0xc3uy; 0xaeuy; 0x04uy; 0xe6uy; 0xcduy; 0x51uy; 0xe4uy; 0x26uy; 0x9buy; 0x4fuy; 0x7euy; 0xa6uy; 0x0fuy; 0xabuy; 0xd8uy; 0xe5uy; 0xdeuy; 0xa9uy; 0x00uy; 0x95uy; 0xbeuy; 0xa3uy; 0x9duy; 0x5duy; 0xb2uy; 0x09uy; 0x70uy; 0x18uy; 0x1cuy; 0xf0uy; 0xacuy; 0x29uy; 0x23uy; 0x02uy; 0x29uy; 0x28uy; 0xd2uy; 0x74uy; 0x35uy; 0x57uy; 0x62uy; 0x0fuy; 0x24uy; 0xeauy; 0x5euy; 0x33uy; 0xc2uy; 0x92uy; 0xf3uy; 0x78uy; 0x4duy; 0x30uy; 0x1euy; 0xa1uy; 0x99uy; 0xa9uy; 0x82uy; 0xb0uy; 0x42uy; 0x31uy; 0x8duy; 0xaduy; 0x8auy; 0xbcuy; 0xfcuy; 0xd4uy; 0x57uy; 0x47uy; 0x3euy; 0xb4uy; 0x50uy; 0xdduy; 0x6euy; 0x2cuy; 0x80uy; 0x4duy; 0x22uy; 0xf1uy; 0xfbuy; 0x57uy; 0xc4uy; 0xdduy; 0x17uy; 0xe1uy; 0x8auy; 0x36uy; 0x4auy; 0xb3uy; 0x37uy; 0xcauy; 0xc9uy; 0x4euy; 0xabuy; 0xd5uy; 0x69uy; 0xc4uy; 0xf4uy; 0xbcuy; 0x0buy; 0x3buy; 0x44uy; 0x4buy; 0x29uy; 0x9cuy; 0xeeuy; 0xd4uy; 0x35uy; 0x22uy; 0x21uy; 0xb0uy; 0x1fuy; 0x27uy; 0x64uy; 0xa8uy; 0x51uy; 0x1buy; 0xf0uy; 0x9fuy; 0x19uy; 0x5cuy; 0xfbuy; 0x5auy; 0x64uy; 0x74uy; 0x70uy; 0x45uy; 0x09uy; 0xf5uy; 0x64uy; 0xfeuy; 0x1auy; 0x2duy; 0xc9uy; 0x14uy; 0x04uy; 0x14uy; 0xcfuy; 0xd5uy; 0x7duy; 0x60uy; 0xafuy; 0x94uy; 0x39uy; 0x94uy; 0xe2uy; 0x7duy; 0x79uy; 0x82uy; 0xd0uy; 0x65uy; 0x3buy; 0x6buy; 0x9cuy; 0x19uy; 0x84uy; 0xb4uy; 0x6duy; 0xb3uy; 0x0cuy; 0x99uy; 0xc0uy; 0x56uy; 0xa8uy; 0xbduy; 0x73uy; 0xceuy; 0x05uy; 0x84uy; 0x3euy; 0x30uy; 0xaauy; 0xc4uy; 0x9buy; 0x1buy; 0x04uy; 0x2auy; 0x9fuy; 0xd7uy; 0x43uy; 0x2buy; 0x23uy; 0xdfuy; 0xbfuy; 0xaauy; 0xd5uy; 0xc2uy; 0x43uy; 0x2duy; 0x70uy; 0xabuy; 0xdcuy; 0x75uy; 0xaduy; 0xacuy; 0xf7uy; 0xc0uy; 0xbeuy; 0x67uy; 0xb2uy; 0x74uy; 0xeduy; 0x67uy; 0x10uy; 0x4auy; 0x92uy; 0x60uy; 0xc1uy; 0x40uy; 0x50uy; 0x19uy; 0x8auy; 0x8auy; 0x8cuy; 0x09uy; 0x0euy; 0x72uy; 0xe1uy; 0x73uy; 0x5euy; 0xe8uy; 0x41uy; 0x85uy; 0x63uy; 0x9fuy; 0x3fuy; 0xd7uy; 0x7duy; 0xc4uy; 0xfbuy; 0x22uy; 0x5duy; 0x92uy; 0x6cuy; 0xb3uy; 0x1euy; 0xe2uy; 0x50uy; 0x2fuy; 0x82uy; 0xa8uy; 0x28uy; 0xc0uy; 0xb5uy; 0xd7uy; 0x5fuy; 0x68uy; 0x0duy; 0x2cuy; 0x2duy; 0xafuy; 0x7euy; 0xfauy; 0x2euy; 0x08uy; 0x0fuy; 0x1fuy; 0x70uy; 0x9fuy; 0xe9uy; 0x19uy; 0x72uy; 0x55uy; 0xf8uy; 0xfbuy; 0x51uy; 0xd2uy; 0x33uy; 0x5duy; 0xa0uy; 0xd3uy; 0x2buy; 0x0auy; 0x6cuy; 0xbcuy; 0x4euy; 0xcfuy; 0x36uy; 0x4duy; 0xdcuy; 0x3buy; 0xe9uy; 0x3euy; 0x81uy; 0x7cuy; 0x61uy; 0xdbuy; 0x20uy; 0x2duy; 0x3auy; 0xc3uy; 0xb3uy; 0x0cuy; 0x1euy; 0x00uy; 0xb9uy; 0x7cuy; 0xf5uy; 0xcauy; 0x10uy; 0x5fuy; 0x3auy; 0x71uy; 0xb3uy; 0xe4uy; 0x20uy; 0xdbuy; 0x0cuy; 0x2auy; 0x98uy; 0x63uy; 0x45uy; 0x00uy; 0x58uy; 0xf6uy; 0x68uy; 0xe4uy; 0x0buy; 0xdauy; 0x13uy; 0x3buy; 0x60uy; 0x5cuy; 0x76uy; 0xdbuy; 0xb9uy; 0x97uy; 0x71uy; 0xe4uy; 0xd9uy; 0xb7uy; 0xdbuy; 0xbduy; 0x68uy; 0xc7uy; 0x84uy; 0x84uy; 0xaauy; 0x7cuy; 0x68uy; 0x62uy; 0x5euy; 0x16uy; 0xfcuy; 0xbauy; 0x72uy; 0xaauy; 0x9auy; 0xa9uy; 0xebuy; 0x7cuy; 0x75uy; 0x47uy; 0x97uy; 0x7euy; 0xaduy; 0xe2uy; 0xd9uy; 0x91uy; 0xe8uy; 0xe4uy; 0xa5uy; 0x31uy; 0xd7uy; 0x01uy; 0x8euy; 0xa2uy; 0x11uy; 0x88uy; 0x95uy; 0xb9uy; 0xf2uy; 0x9buy; 0xd3uy; 0x7fuy; 0x1buy; 0x81uy; 0x22uy; 0xf7uy; 0x98uy; 0x60uy; 0x0auy; 0x64uy; 0xa6uy; 0xc1uy; 0xf6uy; 0x49uy; 0xc7uy; 0xe3uy; 0x07uy; 0x4duy; 0x94uy; 0x7auy; 0xcfuy; 0x6euy; 0x68uy; 0x0cuy; 0x1buy; 0x3fuy; 0x6euy; 0x2euy; 0xeeuy; 0x92uy; 0xfauy; 0x52uy; 0xb3uy; 0x59uy; 0xf8uy; 0xf1uy; 0x8fuy; 0x6auy; 0x66uy; 0xa3uy; 0x82uy; 0x76uy; 0x4auy; 0x07uy; 0x1auy; 0xc7uy; 0xdduy; 0xf5uy; 0xdauy; 0x9cuy; 0x3cuy; 0x24uy; 0xbfuy; 0xfduy; 0x42uy; 0xa1uy; 0x10uy; 0x64uy; 0x6auy; 0x0fuy; 0x89uy; 0xeeuy; 0x36uy; 0xa5uy; 0xceuy; 0x99uy; 0x48uy; 0x6auy; 0xf0uy; 0x9fuy; 0x9euy; 0x69uy; 0xa4uy; 0x40uy; 0x20uy; 0xe9uy; 0x16uy; 0x15uy; 0xf7uy; 0xdbuy; 0x75uy; 0x02uy; 0xcbuy; 0xe9uy; 0x73uy; 0x8buy; 0x3buy; 0x49uy; 0x2fuy; 0xf0uy; 0xafuy; 0x51uy; 0x06uy; 0x5cuy; 0xdfuy; 0x27uy; 0x27uy; 0x49uy; 0x6auy; 0xd1uy; 0xccuy; 0xc7uy; 0xb5uy; 0x63uy; 0xb5uy; 0xfcuy; 0xb8uy; 0x5cuy; 0x87uy; 0x7fuy; 0x84uy; 0xb4uy; 0xccuy; 0x14uy; 0xa9uy; 0x53uy; 0xdauy; 0xa4uy; 0x56uy; 0xf8uy; 0xb6uy; 0x1buy; 0xccuy; 0x40uy; 0x27uy; 0x52uy; 0x06uy; 0x5auy; 0x13uy; 0x81uy; 0xd7uy; 0x3auy; 0xd4uy; 0x3buy; 0xfbuy; 0x49uy; 0x65uy; 0x31uy; 0x33uy; 0xb2uy; 0xfauy; 0xcduy; 0xaduy; 0x58uy; 0x4euy; 0x2buy; 0xaeuy; 0xd2uy; 0x20uy; 0xfbuy; 0x1auy; 0x48uy; 0xb4uy; 0x3fuy; 0x9auy; 0xd8uy; 0x7auy; 0x35uy; 0x4auy; 0xc8uy; 0xeeuy; 0x88uy; 0x5euy; 0x07uy; 0x66uy; 0x54uy; 0xb9uy; 0xecuy; 0x9fuy; 0xa3uy; 0xe3uy; 0xb9uy; 0x37uy; 0xaauy; 0x49uy; 0x76uy; 0x31uy; 0xdauy; 0x74uy; 0x2duy; 0x3cuy; 0xa4uy; 0x65uy; 0x10uy; 0x32uy; 0x38uy; 0xf0uy; 0xdeuy; 0xd3uy; 0x99uy; 0x17uy; 0xaauy; 0x71uy; 0xaauy; 0x8fuy; 0x0fuy; 0x8cuy; 0xafuy; 0xa2uy; 0xf8uy; 0x5duy; 0x64uy; 0xbauy; 0x1duy; 0xa3uy; 0xefuy; 0x96uy; 0x73uy; 0xe8uy; 0xa1uy; 0x02uy; 0x8duy; 0x0cuy; 0x6duy; 0xb8uy; 0x06uy; 0x90uy; 0xb8uy; 0x08uy; 0x56uy; 0x2cuy; 0xa7uy; 0x06uy; 0xc9uy; 0xc2uy; 0x38uy; 0xdbuy; 0x7cuy; 0x63uy; 0xb1uy; 0x57uy; 0x8euy; 0xeauy; 0x7cuy; 0x79uy; 0xf3uy; 0x49uy; 0x1duy; 0xfeuy; 0x9fuy; 0xf3uy; 0x6euy; 0xb1uy; 0x1duy; 0xbauy; 0x19uy; 0x80uy; 0x1auy; 0x0auy; 0xd3uy; 0xb0uy; 0x26uy; 0x21uy; 0x40uy; 0xb1uy; 0x7cuy; 0xf9uy; 0x4duy; 0x8duy; 0x10uy; 0xc1uy; 0x7euy; 0xf4uy; 0xf6uy; 0x3cuy; 0xa8uy; 0xfduy; 0x7cuy; 0xa3uy; 0x92uy; 0xb2uy; 0x0fuy; 0xaauy; 0xccuy; 0xa6uy; 0x11uy; 0xfeuy; 0x04uy; 0xe3uy; 0xd1uy; 0x7auy; 0x32uy; 0x89uy; 0xdfuy; 0x0duy; 0xc4uy; 0x8fuy; 0x79uy; 0x6buy; 0xcauy; 0x16uy; 0x7cuy; 0x6euy; 0xf9uy; 0xaduy; 0x0fuy; 0xf6uy; 0xfeuy; 0x27uy; 0xdbuy; 0xc4uy; 0x13uy; 0x70uy; 0xf1uy; 0x62uy; 0x1auy; 0x4fuy; 0x79uy; 0x40uy; 0xc9uy; 0x9buy; 0x8buy; 0x21uy; 0xeauy; 0x84uy; 0xfauy; 0xf5uy; 0xf1uy; 0x89uy; 0xceuy; 0xb7uy; 0x55uy; 0x0auy; 0x80uy; 0x39uy; 0x2fuy; 0x55uy; 0x36uy; 0x16uy; 0x9cuy; 0x7buy; 0x08uy; 0xbduy; 0x87uy; 0x0duy; 0xa5uy; 0x32uy; 0xf1uy; 0x52uy; 0x7cuy; 0xe8uy; 0x55uy; 0x60uy; 0x5buy; 0xd7uy; 0x69uy; 0xe4uy; 0xfcuy; 0xfauy; 0x12uy; 0x85uy; 0x96uy; 0xeauy; 0x50uy; 0x28uy; 0xabuy; 0x8auy; 0xf7uy; 0xbbuy; 0x0euy; 0x53uy; 0x74uy; 0xcauy; 0xa6uy; 0x27uy; 0x09uy; 0xc2uy; 0xb5uy; 0xdeuy; 0x18uy; 0x14uy; 0xd9uy; 0xeauy; 0xe5uy; 0x29uy; 0x1cuy; 0x40uy; 0x56uy; 0xcfuy; 0xd7uy; 0xaeuy; 0x05uy; 0x3fuy; 0x65uy; 0xafuy; 0x05uy; 0x73uy; 0xe2uy; 0x35uy; 0x96uy; 0x27uy; 0x07uy; 0x14uy; 0xc0uy; 0xaduy; 0x33uy; 0xf1uy; 0xdcuy; 0x44uy; 0x7auy; 0x89uy; 0x17uy; 0x77uy; 0xd2uy; 0x9cuy; 0x58uy; 0x60uy; 0xf0uy; 0x3fuy; 0x7buy; 0x2duy; 0x2euy; 0x57uy; 0x95uy; 0x54uy; 0x87uy; 0xeduy; 0xf2uy; 0xc7uy; 0x4cuy; 0xf0uy; 0xaeuy; 0x56uy; 0x29uy; 0x19uy; 0x7duy; 0x66uy; 0x4buy; 0x9buy; 0x83uy; 0x84uy; 0x42uy; 0x3buy; 0x01uy; 0x25uy; 0x66uy; 0x8euy; 0x02uy; 0xdeuy; 0xb9uy; 0x83uy; 0x54uy; 0x19uy; 0xf6uy; 0x9fuy; 0x79uy; 0x0duy; 0x67uy; 0xc5uy; 0x1duy; 0x7auy; 0x44uy; 0x02uy; 0x98uy; 0xa7uy; 0x16uy; 0x1cuy; 0x29uy; 0x0duy; 0x74uy; 0xffuy; 0x85uy; 0x40uy; 0x06uy; 0xefuy; 0x2cuy; 0xa9uy; 0xc6uy; 0xf5uy; 0x53uy; 0x07uy; 0x06uy; 0xaeuy; 0xe4uy; 0xfauy; 0x5fuy; 0xd8uy; 0x39uy; 0x4duy; 0xf1uy; 0x9buy; 0x6buy; 0xd9uy; 0x24uy; 0x84uy; 0xfeuy; 0x03uy; 0x4cuy; 0xb2uy; 0x3fuy; 0xdfuy; 0xa1uy; 0x05uy; 0x9euy; 0x50uy; 0x14uy; 0x5auy; 0xd9uy; 0x1auy; 0xa2uy; 0xa7uy; 0xfauy; 0xfauy; 0x17uy; 0xf7uy; 0x78uy; 0xd6uy; 0xb5uy; 0x92uy; 0x61uy; 0x91uy; 0xacuy; 0x36uy; 0xfauy; 0x56uy; 0x0duy; 0x38uy; 0x32uy; 0x18uy; 0x85uy; 0x08uy; 0x58uy; 0x37uy; 0xf0uy; 0x4buy; 0xdbuy; 0x59uy; 0xe7uy; 0xa4uy; 0x34uy; 0xc0uy; 0x1buy; 0x01uy; 0xafuy; 0x2duy; 0xdeuy; 0xa1uy; 0xaauy; 0x5duy; 0xd3uy; 0xecuy; 0xe1uy; 0xd4uy; 0xf7uy; 0xe6uy; 0x54uy; 0x68uy; 0xf0uy; 0x51uy; 0x97uy; 0xa7uy; 0x89uy; 0xeauy; 0x24uy; 0xaduy; 0xd3uy; 0x6euy; 0x47uy; 0x93uy; 0x8buy; 0x4buy; 0xb4uy; 0xf7uy; 0x1cuy; 0x42uy; 0x06uy; 0x67uy; 0xe8uy; 0x99uy; 0xf6uy; 0xf5uy; 0x7buy; 0x85uy; 0xb5uy; 0x65uy; 0xb5uy; 0xb5uy; 0xd2uy; 0x37uy; 0xf5uy; 0xf3uy; 0x02uy; 0xa6uy; 0x4duy; 0x11uy; 0xa7uy; 0xdcuy; 0x51uy; 0x09uy; 0x7fuy; 0xa0uy; 0xd8uy; 0x88uy; 0x1cuy; 0x13uy; 0x71uy; 0xaeuy; 0x9cuy; 0xb7uy; 0x7buy; 0x34uy; 0xd6uy; 0x4euy; 0x68uy; 0x26uy; 0x83uy; 0x51uy; 0xafuy; 0x1duy; 0xeeuy; 0x8buy; 0xbbuy; 0x69uy; 0x43uy; 0x2buy; 0x9euy; 0x8auy; 0xbcuy; 0x02uy; 0x0euy; 0xa0uy; 0x1buy; 0xe0uy; 0xa8uy; 0x5fuy; 0x6fuy; 0xafuy; 0x1buy; 0x8fuy; 0xe7uy; 0x64uy; 0x71uy; 0x74uy; 0x11uy; 0x7euy; 0xa8uy; 0xd8uy; 0xf9uy; 0x97uy; 0x06uy; 0xc3uy; 0xb6uy; 0xfbuy; 0xfbuy; 0xb7uy; 0x3duy; 0x35uy; 0x9duy; 0x3buy; 0x52uy; 0xeduy; 0x54uy; 0xcauy; 0xf4uy; 0x81uy; 0x01uy; 0x2duy; 0x1buy; 0xc3uy; 0xa7uy; 0x00uy; 0x3duy; 0x1auy; 0x39uy; 0x54uy; 0xe1uy; 0xf6uy; 0xffuy; 0xeduy; 0x6fuy; 0x0buy; 0x5auy; 0x68uy; 0xdauy; 0x58uy; 0xdduy; 0xa9uy; 0xcfuy; 0x5cuy; 0x4auy; 0xe5uy; 0x09uy; 0x4euy; 0xdeuy; 0x9duy; 0xbcuy; 0x3euy; 0xeeuy; 0x5auy; 0x00uy; 0x3buy; 0x2cuy; 0x87uy; 0x10uy; 0x65uy; 0x60uy; 0xdduy; 0xd7uy; 0x56uy; 0xd1uy; 0x4cuy; 0x64uy; 0x45uy; 0xe4uy; 0x21uy; 0xecuy; 0x78uy; 0xf8uy; 0x25uy; 0x7auy; 0x3euy; 0x16uy; 0x5duy; 0x09uy; 0x53uy; 0x14uy; 0xbeuy; 0x4fuy; 0xaeuy; 0x87uy; 0xd8uy; 0xd1uy; 0xaauy; 0x3cuy; 0xf6uy; 0x3euy; 0xa4uy; 0x70uy; 0x8cuy; 0x5euy; 0x70uy; 0xa4uy; 0xb3uy; 0x6buy; 0x66uy; 0x73uy; 0xd3uy; 0xbfuy; 0x31uy; 0x06uy; 0x19uy; 0x62uy; 0x93uy; 0x15uy; 0xf2uy; 0x86uy; 0xe4uy; 0x52uy; 0x7euy; 0x53uy; 0x4cuy; 0x12uy; 0x38uy; 0xccuy; 0x34uy; 0x7duy; 0x57uy; 0xf6uy; 0x42uy; 0x93uy; 0x8auy; 0xc4uy; 0xeeuy; 0x5cuy; 0x8auy; 0xe1uy; 0x52uy; 0x8fuy; 0x56uy; 0x64uy; 0xf6uy; 0xa6uy; 0xd1uy; 0x91uy; 0x57uy; 0x70uy; 0xcduy; 0x11uy; 0x76uy; 0xf5uy; 0x59uy; 0x60uy; 0x60uy; 0x3cuy; 0xc1uy; 0xc3uy; 0x0buy; 0x7fuy; 0x58uy; 0x1auy; 0x50uy; 0x91uy; 0xf1uy; 0x68uy; 0x8fuy; 0x6euy; 0x74uy; 0x74uy; 0xa8uy; 0x51uy; 0x0buy; 0xf7uy; 0x7auy; 0x98uy; 0x37uy; 0xf2uy; 0x0auy; 0x0euy; 0xa4uy; 0x97uy; 0x04uy; 0xb8uy; 0x9buy; 0xfduy; 0xa0uy; 0xeauy; 0xf7uy; 0x0duy; 0xe1uy; 0xdbuy; 0x03uy; 0xf0uy; 0x31uy; 0x29uy; 0xf8uy; 0xdduy; 0x6buy; 0x8buy; 0x5duy; 0xd8uy; 0x59uy; 0xa9uy; 0x29uy; 0xcfuy; 0x9auy; 0x79uy; 0x89uy; 0x19uy; 0x63uy; 0x46uy; 0x09uy; 0x79uy; 0x6auy; 0x11uy; 0xdauy; 0x63uy; 0x68uy; 0x48uy; 0x77uy; 0x23uy; 0xfbuy; 0x7duy; 0x3auy; 0x43uy; 0xcbuy; 0x02uy; 0x3buy; 0x7auy; 0x6duy; 0x10uy; 0x2auy; 0x9euy; 0xacuy; 0xf1uy; 0xd4uy; 0x19uy; 0xf8uy; 0x23uy; 0x64uy; 0x1duy; 0x2cuy; 0x5fuy; 0xf2uy; 0xb0uy; 0x5cuy; 0x23uy; 0x27uy; 0xf7uy; 0x27uy; 0x30uy; 0x16uy; 0x37uy; 0xb1uy; 0x90uy; 0xabuy; 0x38uy; 0xfbuy; 0x55uy; 0xcduy; 0x78uy; 0x58uy; 0xd4uy; 0x7duy; 0x43uy; 0xf6uy; 0x45uy; 0x5euy; 0x55uy; 0x8duy; 0xb1uy; 0x02uy; 0x65uy; 0x58uy; 0xb4uy; 0x13uy; 0x4buy; 0x36uy; 0xf7uy; 0xccuy; 0xfeuy; 0x3duy; 0x0buy; 0x82uy; 0xe2uy; 0x12uy; 0x11uy; 0xbbuy; 0xe6uy; 0xb8uy; 0x3auy; 0x48uy; 0x71uy; 0xc7uy; 0x50uy; 0x06uy; 0x16uy; 0x3auy; 0xe6uy; 0x7cuy; 0x05uy; 0xc7uy; 0xc8uy; 0x4duy; 0x2fuy; 0x08uy; 0x6auy; 0x17uy; 0x9auy; 0x95uy; 0x97uy; 0x50uy; 0x68uy; 0xdcuy; 0x28uy; 0x18uy; 0xc4uy; 0x61uy; 0x38uy; 0xb9uy; 0xe0uy; 0x3euy; 0x78uy; 0xdbuy; 0x29uy; 0xe0uy; 0x9fuy; 0x52uy; 0xdduy; 0xf8uy; 0x4fuy; 0x91uy; 0xc1uy; 0xd0uy; 0x33uy; 0xa1uy; 0x7auy; 0x8euy; 0x30uy; 0x13uy; 0x82uy; 0x07uy; 0x9fuy; 0xd3uy; 0x31uy; 0x0fuy; 0x23uy; 0xbeuy; 0x32uy; 0x5auy; 0x75uy; 0xcfuy; 0x96uy; 0xb2uy; 0xecuy; 0xb5uy; 0x32uy; 0xacuy; 0x21uy; 0xd1uy; 0x82uy; 0x33uy; 0xd3uy; 0x15uy; 0x74uy; 0xbduy; 0x90uy; 0xf1uy; 0x2cuy; 0xe6uy; 0x5fuy; 0x8duy; 0xe3uy; 0x02uy; 0xe8uy; 0xe9uy; 0xc4uy; 0xcauy; 0x96uy; 0xebuy; 0x0euy; 0xbcuy; 0x91uy; 0xf4uy; 0xb9uy; 0xeauy; 0xd9uy; 0x1buy; 0x75uy; 0xbduy; 0xe1uy; 0xacuy; 0x2auy; 0x05uy; 0x37uy; 0x52uy; 0x9buy; 0x1buy; 0x3fuy; 0x5auy; 0xdcuy; 0x21uy; 0xc3uy; 0x98uy; 0xbbuy; 0xafuy; 0xa3uy; 0xf2uy; 0x00uy; 0xbfuy; 0x0duy; 0x30uy; 0x89uy; 0x05uy; 0xccuy; 0xa5uy; 0x76uy; 0xf5uy; 0x06uy; 0xf0uy; 0xc6uy; 0x54uy; 0x8auy; 0x5duy; 0xd4uy; 0x1euy; 0xc1uy; 0xf2uy; 0xceuy; 0xb0uy; 0x62uy; 0xc8uy; 0xfcuy; 0x59uy; 0x42uy; 0x9auy; 0x90uy; 0x60uy; 0x55uy; 0xfeuy; 0x88uy; 0xa5uy; 0x8buy; 0xb8uy; 0x33uy; 0x0cuy; 0x23uy; 0x24uy; 0x0duy; 0x15uy; 0x70uy; 0x37uy; 0x1euy; 0x3duy; 0xf6uy; 0xd2uy; 0xeauy; 0x92uy; 0x10uy; 0xb2uy; 0xc4uy; 0x51uy; 0xacuy; 0xf2uy; 0xacuy; 0xf3uy; 0x6buy; 0x6cuy; 0xaauy; 0xcfuy; 0x12uy; 0xc5uy; 0x6cuy; 0x90uy; 0x50uy; 0xb5uy; 0x0cuy; 0xfcuy; 0x1auy; 0x15uy; 0x52uy; 0xe9uy; 0x26uy; 0xc6uy; 0x52uy; 0xa4uy; 0xe7uy; 0x81uy; 0x69uy; 0xe1uy; 0xe7uy; 0x9euy; 0x30uy; 0x01uy; 0xecuy; 0x84uy; 0x89uy; 0xb2uy; 0x0duy; 0x66uy; 0xdduy; 0xceuy; 0x28uy; 0x5cuy; 0xecuy; 0x98uy; 0x46uy; 0x68uy; 0x21uy; 0x9fuy; 0x88uy; 0x3fuy; 0x1fuy; 0x42uy; 0x77uy; 0xceuy; 0xd0uy; 0x61uy; 0xd4uy; 0x20uy; 0xa7uy; 0xffuy; 0x53uy; 0xaduy; 0x37uy; 0xd0uy; 0x17uy; 0x35uy; 0xc9uy; 0xfcuy; 0xbauy; 0x0auy; 0x78uy; 0x3fuy; 0xf2uy; 0xccuy; 0x86uy; 0x89uy; 0xe8uy; 0x4buy; 0x3cuy; 0x48uy; 0x33uy; 0x09uy; 0x7fuy; 0xc6uy; 0xc0uy; 0xdduy; 0xb8uy; 0xfduy; 0x7auy; 0x66uy; 0x66uy; 0x65uy; 0xebuy; 0x47uy; 0xa7uy; 0x04uy; 0x28uy; 0xa3uy; 0x19uy; 0x8euy; 0xa9uy; 0xb1uy; 0x13uy; 0x67uy; 0x62uy; 0x70uy; 0xcfuy; 0xd6uy; ] in
assert_norm (List.Tot.length l = 2027);
B.gcmalloc_of_list HyperStack.root l | {
"file_name": "providers/test/vectors/Test.Vectors.Chacha20Poly1305.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 38,
"end_line": 482,
"start_col": 0,
"start_line": 479
} | module Test.Vectors.Chacha20Poly1305
module B = LowStar.Buffer
#set-options "--max_fuel 0 --max_ifuel 0"
let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x1cuy; 0x92uy; 0x40uy; 0xa5uy; 0xebuy; 0x55uy; 0xd3uy; 0x8auy; 0xf3uy; 0x33uy; 0x88uy; 0x86uy; 0x04uy; 0xf6uy; 0xb5uy; 0xf0uy; 0x47uy; 0x39uy; 0x17uy; 0xc1uy; 0x40uy; 0x2buy; 0x80uy; 0x09uy; 0x9duy; 0xcauy; 0x5cuy; 0xbcuy; 0x20uy; 0x70uy; 0x75uy; 0xc0uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) =
32ul
let nonce0: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x01uy; 0x02uy; 0x03uy; 0x04uy; 0x05uy; 0x06uy; 0x07uy; 0x08uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce0_len: (x:UInt32.t { UInt32.v x = B.length nonce0 }) =
12ul
let aad0: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0xf3uy; 0x33uy; 0x88uy; 0x86uy; 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x4euy; 0x91uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad0_len: (x:UInt32.t { UInt32.v x = B.length aad0 }) =
12ul
let input0: (b: B.buffer UInt8.t { B.length b = 265 /\ B.recallable b /\ B.disjoint b aad0 }) =
B.recall aad0;[@inline_let] let l = [ 0x49uy; 0x6euy; 0x74uy; 0x65uy; 0x72uy; 0x6euy; 0x65uy; 0x74uy; 0x2duy; 0x44uy; 0x72uy; 0x61uy; 0x66uy; 0x74uy; 0x73uy; 0x20uy; 0x61uy; 0x72uy; 0x65uy; 0x20uy; 0x64uy; 0x72uy; 0x61uy; 0x66uy; 0x74uy; 0x20uy; 0x64uy; 0x6fuy; 0x63uy; 0x75uy; 0x6duy; 0x65uy; 0x6euy; 0x74uy; 0x73uy; 0x20uy; 0x76uy; 0x61uy; 0x6cuy; 0x69uy; 0x64uy; 0x20uy; 0x66uy; 0x6fuy; 0x72uy; 0x20uy; 0x61uy; 0x20uy; 0x6duy; 0x61uy; 0x78uy; 0x69uy; 0x6duy; 0x75uy; 0x6duy; 0x20uy; 0x6fuy; 0x66uy; 0x20uy; 0x73uy; 0x69uy; 0x78uy; 0x20uy; 0x6duy; 0x6fuy; 0x6euy; 0x74uy; 0x68uy; 0x73uy; 0x20uy; 0x61uy; 0x6euy; 0x64uy; 0x20uy; 0x6duy; 0x61uy; 0x79uy; 0x20uy; 0x62uy; 0x65uy; 0x20uy; 0x75uy; 0x70uy; 0x64uy; 0x61uy; 0x74uy; 0x65uy; 0x64uy; 0x2cuy; 0x20uy; 0x72uy; 0x65uy; 0x70uy; 0x6cuy; 0x61uy; 0x63uy; 0x65uy; 0x64uy; 0x2cuy; 0x20uy; 0x6fuy; 0x72uy; 0x20uy; 0x6fuy; 0x62uy; 0x73uy; 0x6fuy; 0x6cuy; 0x65uy; 0x74uy; 0x65uy; 0x64uy; 0x20uy; 0x62uy; 0x79uy; 0x20uy; 0x6fuy; 0x74uy; 0x68uy; 0x65uy; 0x72uy; 0x20uy; 0x64uy; 0x6fuy; 0x63uy; 0x75uy; 0x6duy; 0x65uy; 0x6euy; 0x74uy; 0x73uy; 0x20uy; 0x61uy; 0x74uy; 0x20uy; 0x61uy; 0x6euy; 0x79uy; 0x20uy; 0x74uy; 0x69uy; 0x6duy; 0x65uy; 0x2euy; 0x20uy; 0x49uy; 0x74uy; 0x20uy; 0x69uy; 0x73uy; 0x20uy; 0x69uy; 0x6euy; 0x61uy; 0x70uy; 0x70uy; 0x72uy; 0x6fuy; 0x70uy; 0x72uy; 0x69uy; 0x61uy; 0x74uy; 0x65uy; 0x20uy; 0x74uy; 0x6fuy; 0x20uy; 0x75uy; 0x73uy; 0x65uy; 0x20uy; 0x49uy; 0x6euy; 0x74uy; 0x65uy; 0x72uy; 0x6euy; 0x65uy; 0x74uy; 0x2duy; 0x44uy; 0x72uy; 0x61uy; 0x66uy; 0x74uy; 0x73uy; 0x20uy; 0x61uy; 0x73uy; 0x20uy; 0x72uy; 0x65uy; 0x66uy; 0x65uy; 0x72uy; 0x65uy; 0x6euy; 0x63uy; 0x65uy; 0x20uy; 0x6duy; 0x61uy; 0x74uy; 0x65uy; 0x72uy; 0x69uy; 0x61uy; 0x6cuy; 0x20uy; 0x6fuy; 0x72uy; 0x20uy; 0x74uy; 0x6fuy; 0x20uy; 0x63uy; 0x69uy; 0x74uy; 0x65uy; 0x20uy; 0x74uy; 0x68uy; 0x65uy; 0x6duy; 0x20uy; 0x6fuy; 0x74uy; 0x68uy; 0x65uy; 0x72uy; 0x20uy; 0x74uy; 0x68uy; 0x61uy; 0x6euy; 0x20uy; 0x61uy; 0x73uy; 0x20uy; 0x2fuy; 0xe2uy; 0x80uy; 0x9cuy; 0x77uy; 0x6fuy; 0x72uy; 0x6buy; 0x20uy; 0x69uy; 0x6euy; 0x20uy; 0x70uy; 0x72uy; 0x6fuy; 0x67uy; 0x72uy; 0x65uy; 0x73uy; 0x73uy; 0x2euy; 0x2fuy; 0xe2uy; 0x80uy; 0x9duy; ] in
assert_norm (List.Tot.length l = 265);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) =
265ul
let output0: (b: B.buffer UInt8.t { B.length b = 281 /\ B.recallable b }) =
[@inline_let] let l = [ 0x64uy; 0xa0uy; 0x86uy; 0x15uy; 0x75uy; 0x86uy; 0x1auy; 0xf4uy; 0x60uy; 0xf0uy; 0x62uy; 0xc7uy; 0x9buy; 0xe6uy; 0x43uy; 0xbduy; 0x5euy; 0x80uy; 0x5cuy; 0xfduy; 0x34uy; 0x5cuy; 0xf3uy; 0x89uy; 0xf1uy; 0x08uy; 0x67uy; 0x0auy; 0xc7uy; 0x6cuy; 0x8cuy; 0xb2uy; 0x4cuy; 0x6cuy; 0xfcuy; 0x18uy; 0x75uy; 0x5duy; 0x43uy; 0xeeuy; 0xa0uy; 0x9euy; 0xe9uy; 0x4euy; 0x38uy; 0x2duy; 0x26uy; 0xb0uy; 0xbduy; 0xb7uy; 0xb7uy; 0x3cuy; 0x32uy; 0x1buy; 0x01uy; 0x00uy; 0xd4uy; 0xf0uy; 0x3buy; 0x7fuy; 0x35uy; 0x58uy; 0x94uy; 0xcfuy; 0x33uy; 0x2fuy; 0x83uy; 0x0euy; 0x71uy; 0x0buy; 0x97uy; 0xceuy; 0x98uy; 0xc8uy; 0xa8uy; 0x4auy; 0xbduy; 0x0buy; 0x94uy; 0x81uy; 0x14uy; 0xaduy; 0x17uy; 0x6euy; 0x00uy; 0x8duy; 0x33uy; 0xbduy; 0x60uy; 0xf9uy; 0x82uy; 0xb1uy; 0xffuy; 0x37uy; 0xc8uy; 0x55uy; 0x97uy; 0x97uy; 0xa0uy; 0x6euy; 0xf4uy; 0xf0uy; 0xefuy; 0x61uy; 0xc1uy; 0x86uy; 0x32uy; 0x4euy; 0x2buy; 0x35uy; 0x06uy; 0x38uy; 0x36uy; 0x06uy; 0x90uy; 0x7buy; 0x6auy; 0x7cuy; 0x02uy; 0xb0uy; 0xf9uy; 0xf6uy; 0x15uy; 0x7buy; 0x53uy; 0xc8uy; 0x67uy; 0xe4uy; 0xb9uy; 0x16uy; 0x6cuy; 0x76uy; 0x7buy; 0x80uy; 0x4duy; 0x46uy; 0xa5uy; 0x9buy; 0x52uy; 0x16uy; 0xcduy; 0xe7uy; 0xa4uy; 0xe9uy; 0x90uy; 0x40uy; 0xc5uy; 0xa4uy; 0x04uy; 0x33uy; 0x22uy; 0x5euy; 0xe2uy; 0x82uy; 0xa1uy; 0xb0uy; 0xa0uy; 0x6cuy; 0x52uy; 0x3euy; 0xafuy; 0x45uy; 0x34uy; 0xd7uy; 0xf8uy; 0x3fuy; 0xa1uy; 0x15uy; 0x5buy; 0x00uy; 0x47uy; 0x71uy; 0x8cuy; 0xbcuy; 0x54uy; 0x6auy; 0x0duy; 0x07uy; 0x2buy; 0x04uy; 0xb3uy; 0x56uy; 0x4euy; 0xeauy; 0x1buy; 0x42uy; 0x22uy; 0x73uy; 0xf5uy; 0x48uy; 0x27uy; 0x1auy; 0x0buy; 0xb2uy; 0x31uy; 0x60uy; 0x53uy; 0xfauy; 0x76uy; 0x99uy; 0x19uy; 0x55uy; 0xebuy; 0xd6uy; 0x31uy; 0x59uy; 0x43uy; 0x4euy; 0xceuy; 0xbbuy; 0x4euy; 0x46uy; 0x6duy; 0xaeuy; 0x5auy; 0x10uy; 0x73uy; 0xa6uy; 0x72uy; 0x76uy; 0x27uy; 0x09uy; 0x7auy; 0x10uy; 0x49uy; 0xe6uy; 0x17uy; 0xd9uy; 0x1duy; 0x36uy; 0x10uy; 0x94uy; 0xfauy; 0x68uy; 0xf0uy; 0xffuy; 0x77uy; 0x98uy; 0x71uy; 0x30uy; 0x30uy; 0x5buy; 0xeauy; 0xbauy; 0x2euy; 0xdauy; 0x04uy; 0xdfuy; 0x99uy; 0x7buy; 0x71uy; 0x4duy; 0x6cuy; 0x6fuy; 0x2cuy; 0x29uy; 0xa6uy; 0xaduy; 0x5cuy; 0xb4uy; 0x02uy; 0x2buy; 0x02uy; 0x70uy; 0x9buy; 0xeeuy; 0xaduy; 0x9duy; 0x67uy; 0x89uy; 0x0cuy; 0xbbuy; 0x22uy; 0x39uy; 0x23uy; 0x36uy; 0xfeuy; 0xa1uy; 0x85uy; 0x1fuy; 0x38uy; ] in
assert_norm (List.Tot.length l = 281);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output0_len: (x:UInt32.t { UInt32.v x = B.length output0 }) =
281ul
let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x4cuy; 0xf5uy; 0x96uy; 0x83uy; 0x38uy; 0xe6uy; 0xaeuy; 0x7fuy; 0x2duy; 0x29uy; 0x25uy; 0x76uy; 0xd5uy; 0x75uy; 0x27uy; 0x86uy; 0x91uy; 0x9auy; 0x27uy; 0x7auy; 0xfbuy; 0x46uy; 0xc5uy; 0xefuy; 0x94uy; 0x81uy; 0x79uy; 0x57uy; 0x14uy; 0x59uy; 0x40uy; 0x68uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) =
32ul
let nonce1: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0xcauy; 0xbfuy; 0x33uy; 0x71uy; 0x32uy; 0x45uy; 0x77uy; 0x8euy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce1_len: (x:UInt32.t { UInt32.v x = B.length nonce1 }) =
12ul
let aad1: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) =
[@inline_let] let l = [ ] in
assert_norm (List.Tot.length l = 0);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad1_len: (x:UInt32.t { UInt32.v x = B.length aad1 }) =
0ul
let input1: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b /\ B.disjoint b aad1 }) =
B.recall aad1;[@inline_let] let l = [ ] in
assert_norm (List.Tot.length l = 0);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) =
0ul
let output1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) =
[@inline_let] let l = [ 0xeauy; 0xe0uy; 0x1euy; 0x9euy; 0x2cuy; 0x91uy; 0xaauy; 0xe1uy; 0xdbuy; 0x5duy; 0x99uy; 0x3fuy; 0x8auy; 0xf7uy; 0x69uy; 0x92uy; ] in
assert_norm (List.Tot.length l = 16);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output1_len: (x:UInt32.t { UInt32.v x = B.length output1 }) =
16ul
let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x2duy; 0xb0uy; 0x5duy; 0x40uy; 0xc8uy; 0xeduy; 0x44uy; 0x88uy; 0x34uy; 0xd1uy; 0x13uy; 0xafuy; 0x57uy; 0xa1uy; 0xebuy; 0x3auy; 0x2auy; 0x80uy; 0x51uy; 0x36uy; 0xecuy; 0x5buy; 0xbcuy; 0x08uy; 0x93uy; 0x84uy; 0x21uy; 0xb5uy; 0x13uy; 0x88uy; 0x3cuy; 0x0duy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) =
32ul
let nonce2: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x3duy; 0x86uy; 0xb5uy; 0x6buy; 0xc8uy; 0xa3uy; 0x1fuy; 0x1duy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce2_len: (x:UInt32.t { UInt32.v x = B.length nonce2 }) =
12ul
let aad2: (b: B.buffer UInt8.t { B.length b = 8 /\ B.recallable b }) =
[@inline_let] let l = [ 0x33uy; 0x10uy; 0x41uy; 0x12uy; 0x1fuy; 0xf3uy; 0xd2uy; 0x6buy; ] in
assert_norm (List.Tot.length l = 8);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad2_len: (x:UInt32.t { UInt32.v x = B.length aad2 }) =
8ul
let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b /\ B.disjoint b aad2 }) =
B.recall aad2;[@inline_let] let l = [ ] in
assert_norm (List.Tot.length l = 0);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) =
0ul
let output2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) =
[@inline_let] let l = [ 0xdduy; 0x6buy; 0x3buy; 0x82uy; 0xceuy; 0x5auy; 0xbduy; 0xd6uy; 0xa9uy; 0x35uy; 0x83uy; 0xd8uy; 0x8cuy; 0x3duy; 0x85uy; 0x77uy; ] in
assert_norm (List.Tot.length l = 16);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output2_len: (x:UInt32.t { UInt32.v x = B.length output2 }) =
16ul
let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x4buy; 0x28uy; 0x4buy; 0xa3uy; 0x7buy; 0xbeuy; 0xe9uy; 0xf8uy; 0x31uy; 0x80uy; 0x82uy; 0xd7uy; 0xd8uy; 0xe8uy; 0xb5uy; 0xa1uy; 0xe2uy; 0x18uy; 0x18uy; 0x8auy; 0x9cuy; 0xfauy; 0xa3uy; 0x3duy; 0x25uy; 0x71uy; 0x3euy; 0x40uy; 0xbcuy; 0x54uy; 0x7auy; 0x3euy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) =
32ul
let nonce3: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0xd2uy; 0x32uy; 0x1fuy; 0x29uy; 0x28uy; 0xc6uy; 0xc4uy; 0xc4uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce3_len: (x:UInt32.t { UInt32.v x = B.length nonce3 }) =
12ul
let aad3: (b: B.buffer UInt8.t { B.length b = 8 /\ B.recallable b }) =
[@inline_let] let l = [ 0x6auy; 0xe2uy; 0xaduy; 0x3fuy; 0x88uy; 0x39uy; 0x5auy; 0x40uy; ] in
assert_norm (List.Tot.length l = 8);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad3_len: (x:UInt32.t { UInt32.v x = B.length aad3 }) =
8ul
let input3: (b: B.buffer UInt8.t { B.length b = 1 /\ B.recallable b /\ B.disjoint b aad3 }) =
B.recall aad3;[@inline_let] let l = [ 0xa4uy; ] in
assert_norm (List.Tot.length l = 1);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) =
1ul
let output3: (b: B.buffer UInt8.t { B.length b = 17 /\ B.recallable b }) =
[@inline_let] let l = [ 0xb7uy; 0x1buy; 0xb0uy; 0x73uy; 0x59uy; 0xb0uy; 0x84uy; 0xb2uy; 0x6duy; 0x8euy; 0xabuy; 0x94uy; 0x31uy; 0xa1uy; 0xaeuy; 0xacuy; 0x89uy; ] in
assert_norm (List.Tot.length l = 17);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output3_len: (x:UInt32.t { UInt32.v x = B.length output3 }) =
17ul
let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x66uy; 0xcauy; 0x9cuy; 0x23uy; 0x2auy; 0x4buy; 0x4buy; 0x31uy; 0x0euy; 0x92uy; 0x89uy; 0x8buy; 0xf4uy; 0x93uy; 0xc7uy; 0x87uy; 0x98uy; 0xa3uy; 0xd8uy; 0x39uy; 0xf8uy; 0xf4uy; 0xa7uy; 0x01uy; 0xc0uy; 0x2euy; 0x0auy; 0xa6uy; 0x7euy; 0x5auy; 0x78uy; 0x87uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) =
32ul
let nonce4: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x20uy; 0x1cuy; 0xaauy; 0x5fuy; 0x9cuy; 0xbfuy; 0x92uy; 0x30uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce4_len: (x:UInt32.t { UInt32.v x = B.length nonce4 }) =
12ul
let aad4: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) =
[@inline_let] let l = [ ] in
assert_norm (List.Tot.length l = 0);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad4_len: (x:UInt32.t { UInt32.v x = B.length aad4 }) =
0ul
let input4: (b: B.buffer UInt8.t { B.length b = 1 /\ B.recallable b /\ B.disjoint b aad4 }) =
B.recall aad4;[@inline_let] let l = [ 0x2duy; ] in
assert_norm (List.Tot.length l = 1);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) =
1ul
let output4: (b: B.buffer UInt8.t { B.length b = 17 /\ B.recallable b }) =
[@inline_let] let l = [ 0xbfuy; 0xe1uy; 0x5buy; 0x0buy; 0xdbuy; 0x6buy; 0xf5uy; 0x5euy; 0x6cuy; 0x5duy; 0x84uy; 0x44uy; 0x39uy; 0x81uy; 0xc1uy; 0x9cuy; 0xacuy; ] in
assert_norm (List.Tot.length l = 17);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output4_len: (x:UInt32.t { UInt32.v x = B.length output4 }) =
17ul
let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x68uy; 0x7buy; 0x8duy; 0x8euy; 0xe3uy; 0xc4uy; 0xdduy; 0xaeuy; 0xdfuy; 0x72uy; 0x7fuy; 0x53uy; 0x72uy; 0x25uy; 0x1euy; 0x78uy; 0x91uy; 0xcbuy; 0x69uy; 0x76uy; 0x1fuy; 0x49uy; 0x93uy; 0xf9uy; 0x6fuy; 0x21uy; 0xccuy; 0x39uy; 0x9cuy; 0xaduy; 0xb1uy; 0x01uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) =
32ul
let nonce5: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0xdfuy; 0x51uy; 0x84uy; 0x82uy; 0x42uy; 0x0cuy; 0x75uy; 0x9cuy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce5_len: (x:UInt32.t { UInt32.v x = B.length nonce5 }) =
12ul
let aad5: (b: B.buffer UInt8.t { B.length b = 7 /\ B.recallable b }) =
[@inline_let] let l = [ 0x70uy; 0xd3uy; 0x33uy; 0xf3uy; 0x8buy; 0x18uy; 0x0buy; ] in
assert_norm (List.Tot.length l = 7);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad5_len: (x:UInt32.t { UInt32.v x = B.length aad5 }) =
7ul
let input5: (b: B.buffer UInt8.t { B.length b = 129 /\ B.recallable b /\ B.disjoint b aad5 }) =
B.recall aad5;[@inline_let] let l = [ 0x33uy; 0x2fuy; 0x94uy; 0xc1uy; 0xa4uy; 0xefuy; 0xccuy; 0x2auy; 0x5buy; 0xa6uy; 0xe5uy; 0x8fuy; 0x1duy; 0x40uy; 0xf0uy; 0x92uy; 0x3cuy; 0xd9uy; 0x24uy; 0x11uy; 0xa9uy; 0x71uy; 0xf9uy; 0x37uy; 0x14uy; 0x99uy; 0xfauy; 0xbeuy; 0xe6uy; 0x80uy; 0xdeuy; 0x50uy; 0xc9uy; 0x96uy; 0xd4uy; 0xb0uy; 0xecuy; 0x9euy; 0x17uy; 0xecuy; 0xd2uy; 0x5euy; 0x72uy; 0x99uy; 0xfcuy; 0x0auy; 0xe1uy; 0xcbuy; 0x48uy; 0xd2uy; 0x85uy; 0xdduy; 0x2fuy; 0x90uy; 0xe0uy; 0x66uy; 0x3buy; 0xe6uy; 0x20uy; 0x74uy; 0xbeuy; 0x23uy; 0x8fuy; 0xcbuy; 0xb4uy; 0xe4uy; 0xdauy; 0x48uy; 0x40uy; 0xa6uy; 0xd1uy; 0x1buy; 0xc7uy; 0x42uy; 0xceuy; 0x2fuy; 0x0cuy; 0xa6uy; 0x85uy; 0x6euy; 0x87uy; 0x37uy; 0x03uy; 0xb1uy; 0x7cuy; 0x25uy; 0x96uy; 0xa3uy; 0x05uy; 0xd8uy; 0xb0uy; 0xf4uy; 0xeduy; 0xeauy; 0xc2uy; 0xf0uy; 0x31uy; 0x98uy; 0x6cuy; 0xd1uy; 0x14uy; 0x25uy; 0xc0uy; 0xcbuy; 0x01uy; 0x74uy; 0xd0uy; 0x82uy; 0xf4uy; 0x36uy; 0xf5uy; 0x41uy; 0xd5uy; 0xdcuy; 0xcauy; 0xc5uy; 0xbbuy; 0x98uy; 0xfeuy; 0xfcuy; 0x69uy; 0x21uy; 0x70uy; 0xd8uy; 0xa4uy; 0x4buy; 0xc8uy; 0xdeuy; 0x8fuy; ] in
assert_norm (List.Tot.length l = 129);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) =
129ul
let output5: (b: B.buffer UInt8.t { B.length b = 145 /\ B.recallable b }) =
[@inline_let] let l = [ 0x8buy; 0x06uy; 0xd3uy; 0x31uy; 0xb0uy; 0x93uy; 0x45uy; 0xb1uy; 0x75uy; 0x6euy; 0x26uy; 0xf9uy; 0x67uy; 0xbcuy; 0x90uy; 0x15uy; 0x81uy; 0x2cuy; 0xb5uy; 0xf0uy; 0xc6uy; 0x2buy; 0xc7uy; 0x8cuy; 0x56uy; 0xd1uy; 0xbfuy; 0x69uy; 0x6cuy; 0x07uy; 0xa0uy; 0xdauy; 0x65uy; 0x27uy; 0xc9uy; 0x90uy; 0x3duy; 0xefuy; 0x4buy; 0x11uy; 0x0fuy; 0x19uy; 0x07uy; 0xfduy; 0x29uy; 0x92uy; 0xd9uy; 0xc8uy; 0xf7uy; 0x99uy; 0x2euy; 0x4auy; 0xd0uy; 0xb8uy; 0x2cuy; 0xdcuy; 0x93uy; 0xf5uy; 0x9euy; 0x33uy; 0x78uy; 0xd1uy; 0x37uy; 0xc3uy; 0x66uy; 0xd7uy; 0x5euy; 0xbcuy; 0x44uy; 0xbfuy; 0x53uy; 0xa5uy; 0xbcuy; 0xc4uy; 0xcbuy; 0x7buy; 0x3auy; 0x8euy; 0x7fuy; 0x02uy; 0xbduy; 0xbbuy; 0xe7uy; 0xcauy; 0xa6uy; 0x6cuy; 0x6buy; 0x93uy; 0x21uy; 0x93uy; 0x10uy; 0x61uy; 0xe7uy; 0x69uy; 0xd0uy; 0x78uy; 0xf3uy; 0x07uy; 0x5auy; 0x1auy; 0x8fuy; 0x73uy; 0xaauy; 0xb1uy; 0x4euy; 0xd3uy; 0xdauy; 0x4fuy; 0xf3uy; 0x32uy; 0xe1uy; 0x66uy; 0x3euy; 0x6cuy; 0xc6uy; 0x13uy; 0xbauy; 0x06uy; 0x5buy; 0xfcuy; 0x6auy; 0xe5uy; 0x6fuy; 0x60uy; 0xfbuy; 0x07uy; 0x40uy; 0xb0uy; 0x8cuy; 0x9duy; 0x84uy; 0x43uy; 0x6buy; 0xc1uy; 0xf7uy; 0x8duy; 0x8duy; 0x31uy; 0xf7uy; 0x7auy; 0x39uy; 0x4duy; 0x8fuy; 0x9auy; 0xebuy; ] in
assert_norm (List.Tot.length l = 145);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output5_len: (x:UInt32.t { UInt32.v x = B.length output5 }) =
145ul
let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x8duy; 0xb8uy; 0x91uy; 0x48uy; 0xf0uy; 0xe7uy; 0x0auy; 0xbduy; 0xf9uy; 0x3fuy; 0xcduy; 0xd9uy; 0xa0uy; 0x1euy; 0x42uy; 0x4cuy; 0xe7uy; 0xdeuy; 0x25uy; 0x3duy; 0xa3uy; 0xd7uy; 0x05uy; 0x80uy; 0x8duy; 0xf2uy; 0x82uy; 0xacuy; 0x44uy; 0x16uy; 0x51uy; 0x01uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) =
32ul
let nonce6: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0xdeuy; 0x7buy; 0xefuy; 0xc3uy; 0x65uy; 0x1buy; 0x68uy; 0xb0uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce6_len: (x:UInt32.t { UInt32.v x = B.length nonce6 }) =
12ul
let aad6: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) =
[@inline_let] let l = [ ] in
assert_norm (List.Tot.length l = 0);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad6_len: (x:UInt32.t { UInt32.v x = B.length aad6 }) =
0ul
let input6: (b: B.buffer UInt8.t { B.length b = 256 /\ B.recallable b /\ B.disjoint b aad6 }) =
B.recall aad6;[@inline_let] let l = [ 0x9buy; 0x18uy; 0xdbuy; 0xdduy; 0x9auy; 0x0fuy; 0x3euy; 0xa5uy; 0x15uy; 0x17uy; 0xdeuy; 0xdfuy; 0x08uy; 0x9duy; 0x65uy; 0x0auy; 0x67uy; 0x30uy; 0x12uy; 0xe2uy; 0x34uy; 0x77uy; 0x4buy; 0xc1uy; 0xd9uy; 0xc6uy; 0x1fuy; 0xabuy; 0xc6uy; 0x18uy; 0x50uy; 0x17uy; 0xa7uy; 0x9duy; 0x3cuy; 0xa6uy; 0xc5uy; 0x35uy; 0x8cuy; 0x1cuy; 0xc0uy; 0xa1uy; 0x7cuy; 0x9fuy; 0x03uy; 0x89uy; 0xcauy; 0xe1uy; 0xe6uy; 0xe9uy; 0xd4uy; 0xd3uy; 0x88uy; 0xdbuy; 0xb4uy; 0x51uy; 0x9duy; 0xecuy; 0xb4uy; 0xfcuy; 0x52uy; 0xeeuy; 0x6duy; 0xf1uy; 0x75uy; 0x42uy; 0xc6uy; 0xfduy; 0xbduy; 0x7auy; 0x8euy; 0x86uy; 0xfcuy; 0x44uy; 0xb3uy; 0x4fuy; 0xf3uy; 0xeauy; 0x67uy; 0x5auy; 0x41uy; 0x13uy; 0xbauy; 0xb0uy; 0xdcuy; 0xe1uy; 0xd3uy; 0x2auy; 0x7cuy; 0x22uy; 0xb3uy; 0xcauy; 0xacuy; 0x6auy; 0x37uy; 0x98uy; 0x3euy; 0x1duy; 0x40uy; 0x97uy; 0xf7uy; 0x9buy; 0x1duy; 0x36uy; 0x6buy; 0xb3uy; 0x28uy; 0xbduy; 0x60uy; 0x82uy; 0x47uy; 0x34uy; 0xaauy; 0x2fuy; 0x7duy; 0xe9uy; 0xa8uy; 0x70uy; 0x81uy; 0x57uy; 0xd4uy; 0xb9uy; 0x77uy; 0x0auy; 0x9duy; 0x29uy; 0xa7uy; 0x84uy; 0x52uy; 0x4fuy; 0xc2uy; 0x4auy; 0x40uy; 0x3buy; 0x3cuy; 0xd4uy; 0xc9uy; 0x2auy; 0xdbuy; 0x4auy; 0x53uy; 0xc4uy; 0xbeuy; 0x80uy; 0xe9uy; 0x51uy; 0x7fuy; 0x8fuy; 0xc7uy; 0xa2uy; 0xceuy; 0x82uy; 0x5cuy; 0x91uy; 0x1euy; 0x74uy; 0xd9uy; 0xd0uy; 0xbduy; 0xd5uy; 0xf3uy; 0xfduy; 0xdauy; 0x4duy; 0x25uy; 0xb4uy; 0xbbuy; 0x2duy; 0xacuy; 0x2fuy; 0x3duy; 0x71uy; 0x85uy; 0x7buy; 0xcfuy; 0x3cuy; 0x7buy; 0x3euy; 0x0euy; 0x22uy; 0x78uy; 0x0cuy; 0x29uy; 0xbfuy; 0xe4uy; 0xf4uy; 0x57uy; 0xb3uy; 0xcbuy; 0x49uy; 0xa0uy; 0xfcuy; 0x1euy; 0x05uy; 0x4euy; 0x16uy; 0xbcuy; 0xd5uy; 0xa8uy; 0xa3uy; 0xeeuy; 0x05uy; 0x35uy; 0xc6uy; 0x7cuy; 0xabuy; 0x60uy; 0x14uy; 0x55uy; 0x1auy; 0x8euy; 0xc5uy; 0x88uy; 0x5duy; 0xd5uy; 0x81uy; 0xc2uy; 0x81uy; 0xa5uy; 0xc4uy; 0x60uy; 0xdbuy; 0xafuy; 0x77uy; 0x91uy; 0xe1uy; 0xceuy; 0xa2uy; 0x7euy; 0x7fuy; 0x42uy; 0xe3uy; 0xb0uy; 0x13uy; 0x1cuy; 0x1fuy; 0x25uy; 0x60uy; 0x21uy; 0xe2uy; 0x40uy; 0x5fuy; 0x99uy; 0xb7uy; 0x73uy; 0xecuy; 0x9buy; 0x2buy; 0xf0uy; 0x65uy; 0x11uy; 0xc8uy; 0xd0uy; 0x0auy; 0x9fuy; 0xd3uy; ] in
assert_norm (List.Tot.length l = 256);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) =
256ul
let output6: (b: B.buffer UInt8.t { B.length b = 272 /\ B.recallable b }) =
[@inline_let] let l = [ 0x85uy; 0x04uy; 0xc2uy; 0xeduy; 0x8duy; 0xfduy; 0x97uy; 0x5cuy; 0xd2uy; 0xb7uy; 0xe2uy; 0xc1uy; 0x6buy; 0xa3uy; 0xbauy; 0xf8uy; 0xc9uy; 0x50uy; 0xc3uy; 0xc6uy; 0xa5uy; 0xe3uy; 0xa4uy; 0x7cuy; 0xc3uy; 0x23uy; 0x49uy; 0x5euy; 0xa9uy; 0xb9uy; 0x32uy; 0xebuy; 0x8auy; 0x7cuy; 0xcauy; 0xe5uy; 0xecuy; 0xfbuy; 0x7cuy; 0xc0uy; 0xcbuy; 0x7duy; 0xdcuy; 0x2cuy; 0x9duy; 0x92uy; 0x55uy; 0x21uy; 0x0auy; 0xc8uy; 0x43uy; 0x63uy; 0x59uy; 0x0auy; 0x31uy; 0x70uy; 0x82uy; 0x67uy; 0x41uy; 0x03uy; 0xf8uy; 0xdfuy; 0xf2uy; 0xacuy; 0xa7uy; 0x02uy; 0xd4uy; 0xd5uy; 0x8auy; 0x2duy; 0xc8uy; 0x99uy; 0x19uy; 0x66uy; 0xd0uy; 0xf6uy; 0x88uy; 0x2cuy; 0x77uy; 0xd9uy; 0xd4uy; 0x0duy; 0x6cuy; 0xbduy; 0x98uy; 0xdeuy; 0xe7uy; 0x7fuy; 0xaduy; 0x7euy; 0x8auy; 0xfbuy; 0xe9uy; 0x4buy; 0xe5uy; 0xf7uy; 0xe5uy; 0x50uy; 0xa0uy; 0x90uy; 0x3fuy; 0xd6uy; 0x22uy; 0x53uy; 0xe3uy; 0xfeuy; 0x1buy; 0xccuy; 0x79uy; 0x3buy; 0xecuy; 0x12uy; 0x47uy; 0x52uy; 0xa7uy; 0xd6uy; 0x04uy; 0xe3uy; 0x52uy; 0xe6uy; 0x93uy; 0x90uy; 0x91uy; 0x32uy; 0x73uy; 0x79uy; 0xb8uy; 0xd0uy; 0x31uy; 0xdeuy; 0x1fuy; 0x9fuy; 0x2fuy; 0x05uy; 0x38uy; 0x54uy; 0x2fuy; 0x35uy; 0x04uy; 0x39uy; 0xe0uy; 0xa7uy; 0xbauy; 0xc6uy; 0x52uy; 0xf6uy; 0x37uy; 0x65uy; 0x4cuy; 0x07uy; 0xa9uy; 0x7euy; 0xb3uy; 0x21uy; 0x6fuy; 0x74uy; 0x8cuy; 0xc9uy; 0xdeuy; 0xdbuy; 0x65uy; 0x1buy; 0x9buy; 0xaauy; 0x60uy; 0xb1uy; 0x03uy; 0x30uy; 0x6buy; 0xb2uy; 0x03uy; 0xc4uy; 0x1cuy; 0x04uy; 0xf8uy; 0x0fuy; 0x64uy; 0xafuy; 0x46uy; 0xe4uy; 0x65uy; 0x99uy; 0x49uy; 0xe2uy; 0xeauy; 0xceuy; 0x78uy; 0x00uy; 0xd8uy; 0x8buy; 0xd5uy; 0x2euy; 0xcfuy; 0xfcuy; 0x40uy; 0x49uy; 0xe8uy; 0x58uy; 0xdcuy; 0x34uy; 0x9cuy; 0x8cuy; 0x61uy; 0xbfuy; 0x0auy; 0x8euy; 0xecuy; 0x39uy; 0xa9uy; 0x30uy; 0x05uy; 0x5auy; 0xd2uy; 0x56uy; 0x01uy; 0xc7uy; 0xdauy; 0x8fuy; 0x4euy; 0xbbuy; 0x43uy; 0xa3uy; 0x3auy; 0xf9uy; 0x15uy; 0x2auy; 0xd0uy; 0xa0uy; 0x7auy; 0x87uy; 0x34uy; 0x82uy; 0xfeuy; 0x8auy; 0xd1uy; 0x2duy; 0x5euy; 0xc7uy; 0xbfuy; 0x04uy; 0x53uy; 0x5fuy; 0x3buy; 0x36uy; 0xd4uy; 0x25uy; 0x5cuy; 0x34uy; 0x7auy; 0x8duy; 0xd5uy; 0x05uy; 0xceuy; 0x72uy; 0xcauy; 0xefuy; 0x7auy; 0x4buy; 0xbcuy; 0xb0uy; 0x10uy; 0x5cuy; 0x96uy; 0x42uy; 0x3auy; 0x00uy; 0x98uy; 0xcduy; 0x15uy; 0xe8uy; 0xb7uy; 0x53uy; ] in
assert_norm (List.Tot.length l = 272);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output6_len: (x:UInt32.t { UInt32.v x = B.length output6 }) =
272ul
let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0xf2uy; 0xaauy; 0x4fuy; 0x99uy; 0xfduy; 0x3euy; 0xa8uy; 0x53uy; 0xc1uy; 0x44uy; 0xe9uy; 0x81uy; 0x18uy; 0xdcuy; 0xf5uy; 0xf0uy; 0x3euy; 0x44uy; 0x15uy; 0x59uy; 0xe0uy; 0xc5uy; 0x44uy; 0x86uy; 0xc3uy; 0x91uy; 0xa8uy; 0x75uy; 0xc0uy; 0x12uy; 0x46uy; 0xbauy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) =
32ul
let nonce7: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x0euy; 0x0duy; 0x57uy; 0xbbuy; 0x7buy; 0x40uy; 0x54uy; 0x02uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce7_len: (x:UInt32.t { UInt32.v x = B.length nonce7 }) =
12ul
let aad7: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) =
[@inline_let] let l = [ ] in
assert_norm (List.Tot.length l = 0);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad7_len: (x:UInt32.t { UInt32.v x = B.length aad7 }) =
0ul
let input7: (b: B.buffer UInt8.t { B.length b = 512 /\ B.recallable b /\ B.disjoint b aad7 }) =
B.recall aad7;[@inline_let] let l = [ 0xc3uy; 0x09uy; 0x94uy; 0x62uy; 0xe6uy; 0x46uy; 0x2euy; 0x10uy; 0xbeuy; 0x00uy; 0xe4uy; 0xfcuy; 0xf3uy; 0x40uy; 0xa3uy; 0xe2uy; 0x0fuy; 0xc2uy; 0x8buy; 0x28uy; 0xdcuy; 0xbauy; 0xb4uy; 0x3cuy; 0xe4uy; 0x21uy; 0x58uy; 0x61uy; 0xcduy; 0x8buy; 0xcduy; 0xfbuy; 0xacuy; 0x94uy; 0xa1uy; 0x45uy; 0xf5uy; 0x1cuy; 0xe1uy; 0x12uy; 0xe0uy; 0x3buy; 0x67uy; 0x21uy; 0x54uy; 0x5euy; 0x8cuy; 0xaauy; 0xcfuy; 0xdbuy; 0xb4uy; 0x51uy; 0xd4uy; 0x13uy; 0xdauy; 0xe6uy; 0x83uy; 0x89uy; 0xb6uy; 0x92uy; 0xe9uy; 0x21uy; 0x76uy; 0xa4uy; 0x93uy; 0x7duy; 0x0euy; 0xfduy; 0x96uy; 0x36uy; 0x03uy; 0x91uy; 0x43uy; 0x5cuy; 0x92uy; 0x49uy; 0x62uy; 0x61uy; 0x7buy; 0xebuy; 0x43uy; 0x89uy; 0xb8uy; 0x12uy; 0x20uy; 0x43uy; 0xd4uy; 0x47uy; 0x06uy; 0x84uy; 0xeeuy; 0x47uy; 0xe9uy; 0x8auy; 0x73uy; 0x15uy; 0x0fuy; 0x72uy; 0xcfuy; 0xeduy; 0xceuy; 0x96uy; 0xb2uy; 0x7fuy; 0x21uy; 0x45uy; 0x76uy; 0xebuy; 0x26uy; 0x28uy; 0x83uy; 0x6auy; 0xaduy; 0xaauy; 0xa6uy; 0x81uy; 0xd8uy; 0x55uy; 0xb1uy; 0xa3uy; 0x85uy; 0xb3uy; 0x0cuy; 0xdfuy; 0xf1uy; 0x69uy; 0x2duy; 0x97uy; 0x05uy; 0x2auy; 0xbcuy; 0x7cuy; 0x7buy; 0x25uy; 0xf8uy; 0x80uy; 0x9duy; 0x39uy; 0x25uy; 0xf3uy; 0x62uy; 0xf0uy; 0x66uy; 0x5euy; 0xf4uy; 0xa0uy; 0xcfuy; 0xd8uy; 0xfduy; 0x4fuy; 0xb1uy; 0x1fuy; 0x60uy; 0x3auy; 0x08uy; 0x47uy; 0xafuy; 0xe1uy; 0xf6uy; 0x10uy; 0x77uy; 0x09uy; 0xa7uy; 0x27uy; 0x8fuy; 0x9auy; 0x97uy; 0x5auy; 0x26uy; 0xfauy; 0xfeuy; 0x41uy; 0x32uy; 0x83uy; 0x10uy; 0xe0uy; 0x1duy; 0xbfuy; 0x64uy; 0x0duy; 0xf4uy; 0x1cuy; 0x32uy; 0x35uy; 0xe5uy; 0x1buy; 0x36uy; 0xefuy; 0xd4uy; 0x4auy; 0x93uy; 0x4duy; 0x00uy; 0x7cuy; 0xecuy; 0x02uy; 0x07uy; 0x8buy; 0x5duy; 0x7duy; 0x1buy; 0x0euy; 0xd1uy; 0xa6uy; 0xa5uy; 0x5duy; 0x7duy; 0x57uy; 0x88uy; 0xa8uy; 0xccuy; 0x81uy; 0xb4uy; 0x86uy; 0x4euy; 0xb4uy; 0x40uy; 0xe9uy; 0x1duy; 0xc3uy; 0xb1uy; 0x24uy; 0x3euy; 0x7fuy; 0xccuy; 0x8auy; 0x24uy; 0x9buy; 0xdfuy; 0x6duy; 0xf0uy; 0x39uy; 0x69uy; 0x3euy; 0x4cuy; 0xc0uy; 0x96uy; 0xe4uy; 0x13uy; 0xdauy; 0x90uy; 0xdauy; 0xf4uy; 0x95uy; 0x66uy; 0x8buy; 0x17uy; 0x17uy; 0xfeuy; 0x39uy; 0x43uy; 0x25uy; 0xaauy; 0xdauy; 0xa0uy; 0x43uy; 0x3cuy; 0xb1uy; 0x41uy; 0x02uy; 0xa3uy; 0xf0uy; 0xa7uy; 0x19uy; 0x59uy; 0xbcuy; 0x1duy; 0x7duy; 0x6cuy; 0x6duy; 0x91uy; 0x09uy; 0x5cuy; 0xb7uy; 0x5buy; 0x01uy; 0xd1uy; 0x6fuy; 0x17uy; 0x21uy; 0x97uy; 0xbfuy; 0x89uy; 0x71uy; 0xa5uy; 0xb0uy; 0x6euy; 0x07uy; 0x45uy; 0xfduy; 0x9duy; 0xeauy; 0x07uy; 0xf6uy; 0x7auy; 0x9fuy; 0x10uy; 0x18uy; 0x22uy; 0x30uy; 0x73uy; 0xacuy; 0xd4uy; 0x6buy; 0x72uy; 0x44uy; 0xeduy; 0xd9uy; 0x19uy; 0x9buy; 0x2duy; 0x4auy; 0x41uy; 0xdduy; 0xd1uy; 0x85uy; 0x5euy; 0x37uy; 0x19uy; 0xeduy; 0xd2uy; 0x15uy; 0x8fuy; 0x5euy; 0x91uy; 0xdbuy; 0x33uy; 0xf2uy; 0xe4uy; 0xdbuy; 0xffuy; 0x98uy; 0xfbuy; 0xa3uy; 0xb5uy; 0xcauy; 0x21uy; 0x69uy; 0x08uy; 0xe7uy; 0x8auy; 0xdfuy; 0x90uy; 0xffuy; 0x3euy; 0xe9uy; 0x20uy; 0x86uy; 0x3cuy; 0xe9uy; 0xfcuy; 0x0buy; 0xfeuy; 0x5cuy; 0x61uy; 0xaauy; 0x13uy; 0x92uy; 0x7fuy; 0x7buy; 0xecuy; 0xe0uy; 0x6duy; 0xa8uy; 0x23uy; 0x22uy; 0xf6uy; 0x6buy; 0x77uy; 0xc4uy; 0xfeuy; 0x40uy; 0x07uy; 0x3buy; 0xb6uy; 0xf6uy; 0x8euy; 0x5fuy; 0xd4uy; 0xb9uy; 0xb7uy; 0x0fuy; 0x21uy; 0x04uy; 0xefuy; 0x83uy; 0x63uy; 0x91uy; 0x69uy; 0x40uy; 0xa3uy; 0x48uy; 0x5cuy; 0xd2uy; 0x60uy; 0xf9uy; 0x4fuy; 0x6cuy; 0x47uy; 0x8buy; 0x3buy; 0xb1uy; 0x9fuy; 0x8euy; 0xeeuy; 0x16uy; 0x8auy; 0x13uy; 0xfcuy; 0x46uy; 0x17uy; 0xc3uy; 0xc3uy; 0x32uy; 0x56uy; 0xf8uy; 0x3cuy; 0x85uy; 0x3auy; 0xb6uy; 0x3euy; 0xaauy; 0x89uy; 0x4fuy; 0xb3uy; 0xdfuy; 0x38uy; 0xfduy; 0xf1uy; 0xe4uy; 0x3auy; 0xc0uy; 0xe6uy; 0x58uy; 0xb5uy; 0x8fuy; 0xc5uy; 0x29uy; 0xa2uy; 0x92uy; 0x4auy; 0xb6uy; 0xa0uy; 0x34uy; 0x7fuy; 0xabuy; 0xb5uy; 0x8auy; 0x90uy; 0xa1uy; 0xdbuy; 0x4duy; 0xcauy; 0xb6uy; 0x2cuy; 0x41uy; 0x3cuy; 0xf7uy; 0x2buy; 0x21uy; 0xc3uy; 0xfduy; 0xf4uy; 0x17uy; 0x5cuy; 0xb5uy; 0x33uy; 0x17uy; 0x68uy; 0x2buy; 0x08uy; 0x30uy; 0xf3uy; 0xf7uy; 0x30uy; 0x3cuy; 0x96uy; 0xe6uy; 0x6auy; 0x20uy; 0x97uy; 0xe7uy; 0x4duy; 0x10uy; 0x5fuy; 0x47uy; 0x5fuy; 0x49uy; 0x96uy; 0x09uy; 0xf0uy; 0x27uy; 0x91uy; 0xc8uy; 0xf8uy; 0x5auy; 0x2euy; 0x79uy; 0xb5uy; 0xe2uy; 0xb8uy; 0xe8uy; 0xb9uy; 0x7buy; 0xd5uy; 0x10uy; 0xcbuy; 0xffuy; 0x5duy; 0x14uy; 0x73uy; 0xf3uy; ] in
assert_norm (List.Tot.length l = 512);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) =
512ul
let output7: (b: B.buffer UInt8.t { B.length b = 528 /\ B.recallable b }) =
[@inline_let] let l = [ 0x14uy; 0xf6uy; 0x41uy; 0x37uy; 0xa6uy; 0xd4uy; 0x27uy; 0xcduy; 0xdbuy; 0x06uy; 0x3euy; 0x9auy; 0x4euy; 0xabuy; 0xd5uy; 0xb1uy; 0x1euy; 0x6buy; 0xd2uy; 0xbcuy; 0x11uy; 0xf4uy; 0x28uy; 0x93uy; 0x63uy; 0x54uy; 0xefuy; 0xbbuy; 0x5euy; 0x1duy; 0x3auy; 0x1duy; 0x37uy; 0x3cuy; 0x0auy; 0x6cuy; 0x1euy; 0xc2uy; 0xd1uy; 0x2cuy; 0xb5uy; 0xa3uy; 0xb5uy; 0x7buy; 0xb8uy; 0x8fuy; 0x25uy; 0xa6uy; 0x1buy; 0x61uy; 0x1cuy; 0xecuy; 0x28uy; 0x58uy; 0x26uy; 0xa4uy; 0xa8uy; 0x33uy; 0x28uy; 0x25uy; 0x5cuy; 0x45uy; 0x05uy; 0xe5uy; 0x6cuy; 0x99uy; 0xe5uy; 0x45uy; 0xc4uy; 0xa2uy; 0x03uy; 0x84uy; 0x03uy; 0x73uy; 0x1euy; 0x8cuy; 0x49uy; 0xacuy; 0x20uy; 0xdduy; 0x8duy; 0xb3uy; 0xc4uy; 0xf5uy; 0xe7uy; 0x4fuy; 0xf1uy; 0xeduy; 0xa1uy; 0x98uy; 0xdeuy; 0xa4uy; 0x96uy; 0xdduy; 0x2fuy; 0xabuy; 0xabuy; 0x97uy; 0xcfuy; 0x3euy; 0xd2uy; 0x9euy; 0xb8uy; 0x13uy; 0x07uy; 0x28uy; 0x29uy; 0x19uy; 0xafuy; 0xfduy; 0xf2uy; 0x49uy; 0x43uy; 0xeauy; 0x49uy; 0x26uy; 0x91uy; 0xc1uy; 0x07uy; 0xd6uy; 0xbbuy; 0x81uy; 0x75uy; 0x35uy; 0x0duy; 0x24uy; 0x7fuy; 0xc8uy; 0xdauy; 0xd4uy; 0xb7uy; 0xebuy; 0xe8uy; 0x5cuy; 0x09uy; 0xa2uy; 0x2fuy; 0xdcuy; 0x28uy; 0x7duy; 0x3auy; 0x03uy; 0xfauy; 0x94uy; 0xb5uy; 0x1duy; 0x17uy; 0x99uy; 0x36uy; 0xc3uy; 0x1cuy; 0x18uy; 0x34uy; 0xe3uy; 0x9fuy; 0xf5uy; 0x55uy; 0x7cuy; 0xb0uy; 0x60uy; 0x9duy; 0xffuy; 0xacuy; 0xd4uy; 0x61uy; 0xf2uy; 0xaduy; 0xf8uy; 0xceuy; 0xc7uy; 0xbeuy; 0x5cuy; 0xd2uy; 0x95uy; 0xa8uy; 0x4buy; 0x77uy; 0x13uy; 0x19uy; 0x59uy; 0x26uy; 0xc9uy; 0xb7uy; 0x8fuy; 0x6auy; 0xcbuy; 0x2duy; 0x37uy; 0x91uy; 0xeauy; 0x92uy; 0x9cuy; 0x94uy; 0x5buy; 0xdauy; 0x0buy; 0xceuy; 0xfeuy; 0x30uy; 0x20uy; 0xf8uy; 0x51uy; 0xaduy; 0xf2uy; 0xbeuy; 0xe7uy; 0xc7uy; 0xffuy; 0xb3uy; 0x33uy; 0x91uy; 0x6auy; 0xc9uy; 0x1auy; 0x41uy; 0xc9uy; 0x0fuy; 0xf3uy; 0x10uy; 0x0euy; 0xfduy; 0x53uy; 0xffuy; 0x6cuy; 0x16uy; 0x52uy; 0xd9uy; 0xf3uy; 0xf7uy; 0x98uy; 0x2euy; 0xc9uy; 0x07uy; 0x31uy; 0x2cuy; 0x0cuy; 0x72uy; 0xd7uy; 0xc5uy; 0xc6uy; 0x08uy; 0x2auy; 0x7buy; 0xdauy; 0xbduy; 0x7euy; 0x02uy; 0xeauy; 0x1auy; 0xbbuy; 0xf2uy; 0x04uy; 0x27uy; 0x61uy; 0x28uy; 0x8euy; 0xf5uy; 0x04uy; 0x03uy; 0x1fuy; 0x4cuy; 0x07uy; 0x55uy; 0x82uy; 0xecuy; 0x1euy; 0xd7uy; 0x8buy; 0x2fuy; 0x65uy; 0x56uy; 0xd1uy; 0xd9uy; 0x1euy; 0x3cuy; 0xe9uy; 0x1fuy; 0x5euy; 0x98uy; 0x70uy; 0x38uy; 0x4auy; 0x8cuy; 0x49uy; 0xc5uy; 0x43uy; 0xa0uy; 0xa1uy; 0x8buy; 0x74uy; 0x9duy; 0x4cuy; 0x62uy; 0x0duy; 0x10uy; 0x0cuy; 0xf4uy; 0x6cuy; 0x8fuy; 0xe0uy; 0xaauy; 0x9auy; 0x8duy; 0xb7uy; 0xe0uy; 0xbeuy; 0x4cuy; 0x87uy; 0xf1uy; 0x98uy; 0x2fuy; 0xccuy; 0xeduy; 0xc0uy; 0x52uy; 0x29uy; 0xdcuy; 0x83uy; 0xf8uy; 0xfcuy; 0x2cuy; 0x0euy; 0xa8uy; 0x51uy; 0x4duy; 0x80uy; 0x0duy; 0xa3uy; 0xfeuy; 0xd8uy; 0x37uy; 0xe7uy; 0x41uy; 0x24uy; 0xfcuy; 0xfbuy; 0x75uy; 0xe3uy; 0x71uy; 0x7buy; 0x57uy; 0x45uy; 0xf5uy; 0x97uy; 0x73uy; 0x65uy; 0x63uy; 0x14uy; 0x74uy; 0xb8uy; 0x82uy; 0x9fuy; 0xf8uy; 0x60uy; 0x2fuy; 0x8auy; 0xf2uy; 0x4euy; 0xf1uy; 0x39uy; 0xdauy; 0x33uy; 0x91uy; 0xf8uy; 0x36uy; 0xe0uy; 0x8duy; 0x3fuy; 0x1fuy; 0x3buy; 0x56uy; 0xdcuy; 0xa0uy; 0x8fuy; 0x3cuy; 0x9duy; 0x71uy; 0x52uy; 0xa7uy; 0xb8uy; 0xc0uy; 0xa5uy; 0xc6uy; 0xa2uy; 0x73uy; 0xdauy; 0xf4uy; 0x4buy; 0x74uy; 0x5buy; 0x00uy; 0x3duy; 0x99uy; 0xd7uy; 0x96uy; 0xbauy; 0xe6uy; 0xe1uy; 0xa6uy; 0x96uy; 0x38uy; 0xaduy; 0xb3uy; 0xc0uy; 0xd2uy; 0xbauy; 0x91uy; 0x6buy; 0xf9uy; 0x19uy; 0xdduy; 0x3buy; 0xbeuy; 0xbeuy; 0x9cuy; 0x20uy; 0x50uy; 0xbauy; 0xa1uy; 0xd0uy; 0xceuy; 0x11uy; 0xbduy; 0x95uy; 0xd8uy; 0xd1uy; 0xdduy; 0x33uy; 0x85uy; 0x74uy; 0xdcuy; 0xdbuy; 0x66uy; 0x76uy; 0x44uy; 0xdcuy; 0x03uy; 0x74uy; 0x48uy; 0x35uy; 0x98uy; 0xb1uy; 0x18uy; 0x47uy; 0x94uy; 0x7duy; 0xffuy; 0x62uy; 0xe4uy; 0x58uy; 0x78uy; 0xabuy; 0xeduy; 0x95uy; 0x36uy; 0xd9uy; 0x84uy; 0x91uy; 0x82uy; 0x64uy; 0x41uy; 0xbbuy; 0x58uy; 0xe6uy; 0x1cuy; 0x20uy; 0x6duy; 0x15uy; 0x6buy; 0x13uy; 0x96uy; 0xe8uy; 0x35uy; 0x7fuy; 0xdcuy; 0x40uy; 0x2cuy; 0xe9uy; 0xbcuy; 0x8auy; 0x4fuy; 0x92uy; 0xecuy; 0x06uy; 0x2duy; 0x50uy; 0xdfuy; 0x93uy; 0x5duy; 0x65uy; 0x5auy; 0xa8uy; 0xfcuy; 0x20uy; 0x50uy; 0x14uy; 0xa9uy; 0x8auy; 0x7euy; 0x1duy; 0x08uy; 0x1fuy; 0xe2uy; 0x99uy; 0xd0uy; 0xbeuy; 0xfbuy; 0x3auy; 0x21uy; 0x9duy; 0xaduy; 0x86uy; 0x54uy; 0xfduy; 0x0duy; 0x98uy; 0x1cuy; 0x5auy; 0x6fuy; 0x1fuy; 0x9auy; 0x40uy; 0xcduy; 0xa2uy; 0xffuy; 0x6auy; 0xf1uy; 0x54uy; ] in
assert_norm (List.Tot.length l = 528);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output7_len: (x:UInt32.t { UInt32.v x = B.length output7 }) =
528ul
let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0xeauy; 0xbcuy; 0x56uy; 0x99uy; 0xe3uy; 0x50uy; 0xffuy; 0xc5uy; 0xccuy; 0x1auy; 0xd7uy; 0xc1uy; 0x57uy; 0x72uy; 0xeauy; 0x86uy; 0x5buy; 0x89uy; 0x88uy; 0x61uy; 0x3duy; 0x2fuy; 0x9buy; 0xb2uy; 0xe7uy; 0x9cuy; 0xecuy; 0x74uy; 0x6euy; 0x3euy; 0xf4uy; 0x3buy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) =
32ul
let nonce8: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0xefuy; 0x2duy; 0x63uy; 0xeeuy; 0x6buy; 0x80uy; 0x8buy; 0x78uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce8_len: (x:UInt32.t { UInt32.v x = B.length nonce8 }) =
12ul
let aad8: (b: B.buffer UInt8.t { B.length b = 9 /\ B.recallable b }) =
[@inline_let] let l = [ 0x5auy; 0x27uy; 0xffuy; 0xebuy; 0xdfuy; 0x84uy; 0xb2uy; 0x9euy; 0xefuy; ] in
assert_norm (List.Tot.length l = 9);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad8_len: (x:UInt32.t { UInt32.v x = B.length aad8 }) =
9ul
let input8: (b: B.buffer UInt8.t { B.length b = 513 /\ B.recallable b /\ B.disjoint b aad8 }) =
B.recall aad8;[@inline_let] let l = [ 0xe6uy; 0xc3uy; 0xdbuy; 0x63uy; 0x55uy; 0x15uy; 0xe3uy; 0x5buy; 0xb7uy; 0x4buy; 0x27uy; 0x8buy; 0x5auy; 0xdduy; 0xc2uy; 0xe8uy; 0x3auy; 0x6buy; 0xd7uy; 0x81uy; 0x96uy; 0x35uy; 0x97uy; 0xcauy; 0xd7uy; 0x68uy; 0xe8uy; 0xefuy; 0xceuy; 0xabuy; 0xdauy; 0x09uy; 0x6euy; 0xd6uy; 0x8euy; 0xcbuy; 0x55uy; 0xb5uy; 0xe1uy; 0xe5uy; 0x57uy; 0xfduy; 0xc4uy; 0xe3uy; 0xe0uy; 0x18uy; 0x4fuy; 0x85uy; 0xf5uy; 0x3fuy; 0x7euy; 0x4buy; 0x88uy; 0xc9uy; 0x52uy; 0x44uy; 0x0fuy; 0xeauy; 0xafuy; 0x1fuy; 0x71uy; 0x48uy; 0x9fuy; 0x97uy; 0x6duy; 0xb9uy; 0x6fuy; 0x00uy; 0xa6uy; 0xdeuy; 0x2buy; 0x77uy; 0x8buy; 0x15uy; 0xaduy; 0x10uy; 0xa0uy; 0x2buy; 0x7buy; 0x41uy; 0x90uy; 0x03uy; 0x2duy; 0x69uy; 0xaeuy; 0xccuy; 0x77uy; 0x7cuy; 0xa5uy; 0x9duy; 0x29uy; 0x22uy; 0xc2uy; 0xeauy; 0xb4uy; 0x00uy; 0x1auy; 0xd2uy; 0x7auy; 0x98uy; 0x8auy; 0xf9uy; 0xf7uy; 0x82uy; 0xb0uy; 0xabuy; 0xd8uy; 0xa6uy; 0x94uy; 0x8duy; 0x58uy; 0x2fuy; 0x01uy; 0x9euy; 0x00uy; 0x20uy; 0xfcuy; 0x49uy; 0xdcuy; 0x0euy; 0x03uy; 0xe8uy; 0x45uy; 0x10uy; 0xd6uy; 0xa8uy; 0xdauy; 0x55uy; 0x10uy; 0x9auy; 0xdfuy; 0x67uy; 0x22uy; 0x8buy; 0x43uy; 0xabuy; 0x00uy; 0xbbuy; 0x02uy; 0xc8uy; 0xdduy; 0x7buy; 0x97uy; 0x17uy; 0xd7uy; 0x1duy; 0x9euy; 0x02uy; 0x5euy; 0x48uy; 0xdeuy; 0x8euy; 0xcfuy; 0x99uy; 0x07uy; 0x95uy; 0x92uy; 0x3cuy; 0x5fuy; 0x9fuy; 0xc5uy; 0x8auy; 0xc0uy; 0x23uy; 0xaauy; 0xd5uy; 0x8cuy; 0x82uy; 0x6euy; 0x16uy; 0x92uy; 0xb1uy; 0x12uy; 0x17uy; 0x07uy; 0xc3uy; 0xfbuy; 0x36uy; 0xf5uy; 0x6cuy; 0x35uy; 0xd6uy; 0x06uy; 0x1fuy; 0x9fuy; 0xa7uy; 0x94uy; 0xa2uy; 0x38uy; 0x63uy; 0x9cuy; 0xb0uy; 0x71uy; 0xb3uy; 0xa5uy; 0xd2uy; 0xd8uy; 0xbauy; 0x9fuy; 0x08uy; 0x01uy; 0xb3uy; 0xffuy; 0x04uy; 0x97uy; 0x73uy; 0x45uy; 0x1buy; 0xd5uy; 0xa9uy; 0x9cuy; 0x80uy; 0xafuy; 0x04uy; 0x9auy; 0x85uy; 0xdbuy; 0x32uy; 0x5buy; 0x5duy; 0x1auy; 0xc1uy; 0x36uy; 0x28uy; 0x10uy; 0x79uy; 0xf1uy; 0x3cuy; 0xbfuy; 0x1auy; 0x41uy; 0x5cuy; 0x4euy; 0xdfuy; 0xb2uy; 0x7cuy; 0x79uy; 0x3buy; 0x7auy; 0x62uy; 0x3duy; 0x4buy; 0xc9uy; 0x9buy; 0x2auy; 0x2euy; 0x7cuy; 0xa2uy; 0xb1uy; 0x11uy; 0x98uy; 0xa7uy; 0x34uy; 0x1auy; 0x00uy; 0xf3uy; 0xd1uy; 0xbcuy; 0x18uy; 0x22uy; 0xbauy; 0x02uy; 0x56uy; 0x62uy; 0x31uy; 0x10uy; 0x11uy; 0x6duy; 0xe0uy; 0x54uy; 0x9duy; 0x40uy; 0x1fuy; 0x26uy; 0x80uy; 0x41uy; 0xcauy; 0x3fuy; 0x68uy; 0x0fuy; 0x32uy; 0x1duy; 0x0auy; 0x8euy; 0x79uy; 0xd8uy; 0xa4uy; 0x1buy; 0x29uy; 0x1cuy; 0x90uy; 0x8euy; 0xc5uy; 0xe3uy; 0xb4uy; 0x91uy; 0x37uy; 0x9auy; 0x97uy; 0x86uy; 0x99uy; 0xd5uy; 0x09uy; 0xc5uy; 0xbbuy; 0xa3uy; 0x3fuy; 0x21uy; 0x29uy; 0x82uy; 0x14uy; 0x5cuy; 0xabuy; 0x25uy; 0xfbuy; 0xf2uy; 0x4fuy; 0x58uy; 0x26uy; 0xd4uy; 0x83uy; 0xaauy; 0x66uy; 0x89uy; 0x67uy; 0x7euy; 0xc0uy; 0x49uy; 0xe1uy; 0x11uy; 0x10uy; 0x7fuy; 0x7auy; 0xdauy; 0x29uy; 0x04uy; 0xffuy; 0xf0uy; 0xcbuy; 0x09uy; 0x7cuy; 0x9duy; 0xfauy; 0x03uy; 0x6fuy; 0x81uy; 0x09uy; 0x31uy; 0x60uy; 0xfbuy; 0x08uy; 0xfauy; 0x74uy; 0xd3uy; 0x64uy; 0x44uy; 0x7cuy; 0x55uy; 0x85uy; 0xecuy; 0x9cuy; 0x6euy; 0x25uy; 0xb7uy; 0x6cuy; 0xc5uy; 0x37uy; 0xb6uy; 0x83uy; 0x87uy; 0x72uy; 0x95uy; 0x8buy; 0x9duy; 0xe1uy; 0x69uy; 0x5cuy; 0x31uy; 0x95uy; 0x42uy; 0xa6uy; 0x2cuy; 0xd1uy; 0x36uy; 0x47uy; 0x1fuy; 0xecuy; 0x54uy; 0xabuy; 0xa2uy; 0x1cuy; 0xd8uy; 0x00uy; 0xccuy; 0xbcuy; 0x0duy; 0x65uy; 0xe2uy; 0x67uy; 0xbfuy; 0xbcuy; 0xeauy; 0xeeuy; 0x9euy; 0xe4uy; 0x36uy; 0x95uy; 0xbeuy; 0x73uy; 0xd9uy; 0xa6uy; 0xd9uy; 0x0fuy; 0xa0uy; 0xccuy; 0x82uy; 0x76uy; 0x26uy; 0xaduy; 0x5buy; 0x58uy; 0x6cuy; 0x4euy; 0xabuy; 0x29uy; 0x64uy; 0xd3uy; 0xd9uy; 0xa9uy; 0x08uy; 0x8cuy; 0x1duy; 0xa1uy; 0x4fuy; 0x80uy; 0xd8uy; 0x3fuy; 0x94uy; 0xfbuy; 0xd3uy; 0x7buy; 0xfcuy; 0xd1uy; 0x2buy; 0xc3uy; 0x21uy; 0xebuy; 0xe5uy; 0x1cuy; 0x84uy; 0x23uy; 0x7fuy; 0x4buy; 0xfauy; 0xdbuy; 0x34uy; 0x18uy; 0xa2uy; 0xc2uy; 0xe5uy; 0x13uy; 0xfeuy; 0x6cuy; 0x49uy; 0x81uy; 0xd2uy; 0x73uy; 0xe7uy; 0xe2uy; 0xd7uy; 0xe4uy; 0x4fuy; 0x4buy; 0x08uy; 0x6euy; 0xb1uy; 0x12uy; 0x22uy; 0x10uy; 0x9duy; 0xacuy; 0x51uy; 0x1euy; 0x17uy; 0xd9uy; 0x8auy; 0x0buy; 0x42uy; 0x88uy; 0x16uy; 0x81uy; 0x37uy; 0x7cuy; 0x6auy; 0xf7uy; 0xefuy; 0x2duy; 0xe3uy; 0xd9uy; 0xf8uy; 0x5fuy; 0xe0uy; 0x53uy; 0x27uy; 0x74uy; 0xb9uy; 0xe2uy; 0xd6uy; 0x1cuy; 0x80uy; 0x2cuy; 0x52uy; 0x65uy; ] in
assert_norm (List.Tot.length l = 513);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) =
513ul
let output8: (b: B.buffer UInt8.t { B.length b = 529 /\ B.recallable b }) =
[@inline_let] let l = [ 0xfduy; 0x81uy; 0x8duy; 0xd0uy; 0x3duy; 0xb4uy; 0xd5uy; 0xdfuy; 0xd3uy; 0x42uy; 0x47uy; 0x5auy; 0x6duy; 0x19uy; 0x27uy; 0x66uy; 0x4buy; 0x2euy; 0x0cuy; 0x27uy; 0x9cuy; 0x96uy; 0x4cuy; 0x72uy; 0x02uy; 0xa3uy; 0x65uy; 0xc3uy; 0xb3uy; 0x6fuy; 0x2euy; 0xbduy; 0x63uy; 0x8auy; 0x4auy; 0x5duy; 0x29uy; 0xa2uy; 0xd0uy; 0x28uy; 0x48uy; 0xc5uy; 0x3duy; 0x98uy; 0xa3uy; 0xbcuy; 0xe0uy; 0xbeuy; 0x3buy; 0x3fuy; 0xe6uy; 0x8auy; 0xa4uy; 0x7fuy; 0x53uy; 0x06uy; 0xfauy; 0x7fuy; 0x27uy; 0x76uy; 0x72uy; 0x31uy; 0xa1uy; 0xf5uy; 0xd6uy; 0x0cuy; 0x52uy; 0x47uy; 0xbauy; 0xcduy; 0x4fuy; 0xd7uy; 0xebuy; 0x05uy; 0x48uy; 0x0duy; 0x7cuy; 0x35uy; 0x4auy; 0x09uy; 0xc9uy; 0x76uy; 0x71uy; 0x02uy; 0xa3uy; 0xfbuy; 0xb7uy; 0x1auy; 0x65uy; 0xb7uy; 0xeduy; 0x98uy; 0xc6uy; 0x30uy; 0x8auy; 0x00uy; 0xaeuy; 0xa1uy; 0x31uy; 0xe5uy; 0xb5uy; 0x9euy; 0x6duy; 0x62uy; 0xdauy; 0xdauy; 0x07uy; 0x0fuy; 0x38uy; 0x38uy; 0xd3uy; 0xcbuy; 0xc1uy; 0xb0uy; 0xaduy; 0xecuy; 0x72uy; 0xecuy; 0xb1uy; 0xa2uy; 0x7buy; 0x59uy; 0xf3uy; 0x3duy; 0x2buy; 0xefuy; 0xcduy; 0x28uy; 0x5buy; 0x83uy; 0xccuy; 0x18uy; 0x91uy; 0x88uy; 0xb0uy; 0x2euy; 0xf9uy; 0x29uy; 0x31uy; 0x18uy; 0xf9uy; 0x4euy; 0xe9uy; 0x0auy; 0x91uy; 0x92uy; 0x9fuy; 0xaeuy; 0x2duy; 0xaduy; 0xf4uy; 0xe6uy; 0x1auy; 0xe2uy; 0xa4uy; 0xeeuy; 0x47uy; 0x15uy; 0xbfuy; 0x83uy; 0x6euy; 0xd7uy; 0x72uy; 0x12uy; 0x3buy; 0x2duy; 0x24uy; 0xe9uy; 0xb2uy; 0x55uy; 0xcbuy; 0x3cuy; 0x10uy; 0xf0uy; 0x24uy; 0x8auy; 0x4auy; 0x02uy; 0xeauy; 0x90uy; 0x25uy; 0xf0uy; 0xb4uy; 0x79uy; 0x3auy; 0xefuy; 0x6euy; 0xf5uy; 0x52uy; 0xdfuy; 0xb0uy; 0x0auy; 0xcduy; 0x24uy; 0x1cuy; 0xd3uy; 0x2euy; 0x22uy; 0x74uy; 0xeauy; 0x21uy; 0x6fuy; 0xe9uy; 0xbduy; 0xc8uy; 0x3euy; 0x36uy; 0x5buy; 0x19uy; 0xf1uy; 0xcauy; 0x99uy; 0x0auy; 0xb4uy; 0xa7uy; 0x52uy; 0x1auy; 0x4euy; 0xf2uy; 0xaduy; 0x8duy; 0x56uy; 0x85uy; 0xbbuy; 0x64uy; 0x89uy; 0xbauy; 0x26uy; 0xf9uy; 0xc7uy; 0xe1uy; 0x89uy; 0x19uy; 0x22uy; 0x77uy; 0xc3uy; 0xa8uy; 0xfcuy; 0xffuy; 0xaduy; 0xfeuy; 0xb9uy; 0x48uy; 0xaeuy; 0x12uy; 0x30uy; 0x9fuy; 0x19uy; 0xfbuy; 0x1buy; 0xefuy; 0x14uy; 0x87uy; 0x8auy; 0x78uy; 0x71uy; 0xf3uy; 0xf4uy; 0xb7uy; 0x00uy; 0x9cuy; 0x1duy; 0xb5uy; 0x3duy; 0x49uy; 0x00uy; 0x0cuy; 0x06uy; 0xd4uy; 0x50uy; 0xf9uy; 0x54uy; 0x45uy; 0xb2uy; 0x5buy; 0x43uy; 0xdbuy; 0x6duy; 0xcfuy; 0x1auy; 0xe9uy; 0x7auy; 0x7auy; 0xcfuy; 0xfcuy; 0x8auy; 0x4euy; 0x4duy; 0x0buy; 0x07uy; 0x63uy; 0x28uy; 0xd8uy; 0xe7uy; 0x08uy; 0x95uy; 0xdfuy; 0xa6uy; 0x72uy; 0x93uy; 0x2euy; 0xbbuy; 0xa0uy; 0x42uy; 0x89uy; 0x16uy; 0xf1uy; 0xd9uy; 0x0cuy; 0xf9uy; 0xa1uy; 0x16uy; 0xfduy; 0xd9uy; 0x03uy; 0xb4uy; 0x3buy; 0x8auy; 0xf5uy; 0xf6uy; 0xe7uy; 0x6buy; 0x2euy; 0x8euy; 0x4cuy; 0x3duy; 0xe2uy; 0xafuy; 0x08uy; 0x45uy; 0x03uy; 0xffuy; 0x09uy; 0xb6uy; 0xebuy; 0x2duy; 0xc6uy; 0x1buy; 0x88uy; 0x94uy; 0xacuy; 0x3euy; 0xf1uy; 0x9fuy; 0x0euy; 0x0euy; 0x2buy; 0xd5uy; 0x00uy; 0x4duy; 0x3fuy; 0x3buy; 0x53uy; 0xaeuy; 0xafuy; 0x1cuy; 0x33uy; 0x5fuy; 0x55uy; 0x6euy; 0x8duy; 0xafuy; 0x05uy; 0x7auy; 0x10uy; 0x34uy; 0xc9uy; 0xf4uy; 0x66uy; 0xcbuy; 0x62uy; 0x12uy; 0xa6uy; 0xeeuy; 0xe8uy; 0x1cuy; 0x5duy; 0x12uy; 0x86uy; 0xdbuy; 0x6fuy; 0x1cuy; 0x33uy; 0xc4uy; 0x1cuy; 0xdauy; 0x82uy; 0x2duy; 0x3buy; 0x59uy; 0xfeuy; 0xb1uy; 0xa4uy; 0x59uy; 0x41uy; 0x86uy; 0xd0uy; 0xefuy; 0xaeuy; 0xfbuy; 0xdauy; 0x6duy; 0x11uy; 0xb8uy; 0xcauy; 0xe9uy; 0x6euy; 0xffuy; 0xf7uy; 0xa9uy; 0xd9uy; 0x70uy; 0x30uy; 0xfcuy; 0x53uy; 0xe2uy; 0xd7uy; 0xa2uy; 0x4euy; 0xc7uy; 0x91uy; 0xd9uy; 0x07uy; 0x06uy; 0xaauy; 0xdduy; 0xb0uy; 0x59uy; 0x28uy; 0x1duy; 0x00uy; 0x66uy; 0xc5uy; 0x54uy; 0xc2uy; 0xfcuy; 0x06uy; 0xdauy; 0x05uy; 0x90uy; 0x52uy; 0x1duy; 0x37uy; 0x66uy; 0xeeuy; 0xf0uy; 0xb2uy; 0x55uy; 0x8auy; 0x5duy; 0xd2uy; 0x38uy; 0x86uy; 0x94uy; 0x9buy; 0xfcuy; 0x10uy; 0x4cuy; 0xa1uy; 0xb9uy; 0x64uy; 0x3euy; 0x44uy; 0xb8uy; 0x5fuy; 0xb0uy; 0x0cuy; 0xecuy; 0xe0uy; 0xc9uy; 0xe5uy; 0x62uy; 0x75uy; 0x3fuy; 0x09uy; 0xd5uy; 0xf5uy; 0xd9uy; 0x26uy; 0xbauy; 0x9euy; 0xd2uy; 0xf4uy; 0xb9uy; 0x48uy; 0x0auy; 0xbcuy; 0xa2uy; 0xd6uy; 0x7cuy; 0x36uy; 0x11uy; 0x7duy; 0x26uy; 0x81uy; 0x89uy; 0xcfuy; 0xa4uy; 0xaduy; 0x73uy; 0x0euy; 0xeeuy; 0xccuy; 0x06uy; 0xa9uy; 0xdbuy; 0xb1uy; 0xfduy; 0xfbuy; 0x09uy; 0x7fuy; 0x90uy; 0x42uy; 0x37uy; 0x2fuy; 0xe1uy; 0x9cuy; 0x0fuy; 0x6fuy; 0xcfuy; 0x43uy; 0xb5uy; 0xd9uy; 0x90uy; 0xe1uy; 0x85uy; 0xf5uy; 0xa8uy; 0xaeuy; ] in
assert_norm (List.Tot.length l = 529);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output8_len: (x:UInt32.t { UInt32.v x = B.length output8 }) =
529ul
let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x47uy; 0x11uy; 0xebuy; 0x86uy; 0x2buy; 0x2cuy; 0xabuy; 0x44uy; 0x34uy; 0xdauy; 0x7fuy; 0x57uy; 0x03uy; 0x39uy; 0x0cuy; 0xafuy; 0x2cuy; 0x14uy; 0xfduy; 0x65uy; 0x23uy; 0xe9uy; 0x8euy; 0x74uy; 0xd5uy; 0x08uy; 0x68uy; 0x08uy; 0xe7uy; 0xb4uy; 0x72uy; 0xd7uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) =
32ul
let nonce9: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0xdbuy; 0x92uy; 0x0fuy; 0x7fuy; 0x17uy; 0x54uy; 0x0cuy; 0x30uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce9_len: (x:UInt32.t { UInt32.v x = B.length nonce9 }) =
12ul
let aad9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) =
[@inline_let] let l = [ 0xd2uy; 0xa1uy; 0x70uy; 0xdbuy; 0x7auy; 0xf8uy; 0xfauy; 0x27uy; 0xbauy; 0x73uy; 0x0fuy; 0xbfuy; 0x3duy; 0x1euy; 0x82uy; 0xb2uy; ] in
assert_norm (List.Tot.length l = 16);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad9_len: (x:UInt32.t { UInt32.v x = B.length aad9 }) =
16ul
let input9: (b: B.buffer UInt8.t { B.length b = 1024 /\ B.recallable b /\ B.disjoint b aad9 }) =
B.recall aad9;[@inline_let] let l = [ 0x42uy; 0x93uy; 0xe4uy; 0xebuy; 0x97uy; 0xb0uy; 0x57uy; 0xbfuy; 0x1auy; 0x8buy; 0x1fuy; 0xe4uy; 0x5fuy; 0x36uy; 0x20uy; 0x3cuy; 0xefuy; 0x0auy; 0xa9uy; 0x48uy; 0x5fuy; 0x5fuy; 0x37uy; 0x22uy; 0x3auy; 0xdeuy; 0xe3uy; 0xaeuy; 0xbeuy; 0xaduy; 0x07uy; 0xccuy; 0xb1uy; 0xf6uy; 0xf5uy; 0xf9uy; 0x56uy; 0xdduy; 0xe7uy; 0x16uy; 0x1euy; 0x7fuy; 0xdfuy; 0x7auy; 0x9euy; 0x75uy; 0xb7uy; 0xc7uy; 0xbeuy; 0xbeuy; 0x8auy; 0x36uy; 0x04uy; 0xc0uy; 0x10uy; 0xf4uy; 0x95uy; 0x20uy; 0x03uy; 0xecuy; 0xdcuy; 0x05uy; 0xa1uy; 0x7duy; 0xc4uy; 0xa9uy; 0x2cuy; 0x82uy; 0xd0uy; 0xbcuy; 0x8buy; 0xc5uy; 0xc7uy; 0x45uy; 0x50uy; 0xf6uy; 0xa2uy; 0x1auy; 0xb5uy; 0x46uy; 0x3buy; 0x73uy; 0x02uy; 0xa6uy; 0x83uy; 0x4buy; 0x73uy; 0x82uy; 0x58uy; 0x5euy; 0x3buy; 0x65uy; 0x2fuy; 0x0euy; 0xfduy; 0x2buy; 0x59uy; 0x16uy; 0xceuy; 0xa1uy; 0x60uy; 0x9cuy; 0xe8uy; 0x3auy; 0x99uy; 0xeduy; 0x8duy; 0x5auy; 0xcfuy; 0xf6uy; 0x83uy; 0xafuy; 0xbauy; 0xd7uy; 0x73uy; 0x73uy; 0x40uy; 0x97uy; 0x3duy; 0xcauy; 0xefuy; 0x07uy; 0x57uy; 0xe6uy; 0xd9uy; 0x70uy; 0x0euy; 0x95uy; 0xaeuy; 0xa6uy; 0x8duy; 0x04uy; 0xccuy; 0xeeuy; 0xf7uy; 0x09uy; 0x31uy; 0x77uy; 0x12uy; 0xa3uy; 0x23uy; 0x97uy; 0x62uy; 0xb3uy; 0x7buy; 0x32uy; 0xfbuy; 0x80uy; 0x14uy; 0x48uy; 0x81uy; 0xc3uy; 0xe5uy; 0xeauy; 0x91uy; 0x39uy; 0x52uy; 0x81uy; 0xa2uy; 0x4fuy; 0xe4uy; 0xb3uy; 0x09uy; 0xffuy; 0xdeuy; 0x5euy; 0xe9uy; 0x58uy; 0x84uy; 0x6euy; 0xf9uy; 0x3duy; 0xdfuy; 0x25uy; 0xeauy; 0xaduy; 0xaeuy; 0xe6uy; 0x9auy; 0xd1uy; 0x89uy; 0x55uy; 0xd3uy; 0xdeuy; 0x6cuy; 0x52uy; 0xdbuy; 0x70uy; 0xfeuy; 0x37uy; 0xceuy; 0x44uy; 0x0auy; 0xa8uy; 0x25uy; 0x5fuy; 0x92uy; 0xc1uy; 0x33uy; 0x4auy; 0x4fuy; 0x9buy; 0x62uy; 0x35uy; 0xffuy; 0xceuy; 0xc0uy; 0xa9uy; 0x60uy; 0xceuy; 0x52uy; 0x00uy; 0x97uy; 0x51uy; 0x35uy; 0x26uy; 0x2euy; 0xb9uy; 0x36uy; 0xa9uy; 0x87uy; 0x6euy; 0x1euy; 0xccuy; 0x91uy; 0x78uy; 0x53uy; 0x98uy; 0x86uy; 0x5buy; 0x9cuy; 0x74uy; 0x7duy; 0x88uy; 0x33uy; 0xe1uy; 0xdfuy; 0x37uy; 0x69uy; 0x2buy; 0xbbuy; 0xf1uy; 0x4duy; 0xf4uy; 0xd1uy; 0xf1uy; 0x39uy; 0x93uy; 0x17uy; 0x51uy; 0x19uy; 0xe3uy; 0x19uy; 0x1euy; 0x76uy; 0x37uy; 0x25uy; 0xfbuy; 0x09uy; 0x27uy; 0x6auy; 0xabuy; 0x67uy; 0x6fuy; 0x14uy; 0x12uy; 0x64uy; 0xe7uy; 0xc4uy; 0x07uy; 0xdfuy; 0x4duy; 0x17uy; 0xbbuy; 0x6duy; 0xe0uy; 0xe9uy; 0xb9uy; 0xabuy; 0xcauy; 0x10uy; 0x68uy; 0xafuy; 0x7euy; 0xb7uy; 0x33uy; 0x54uy; 0x73uy; 0x07uy; 0x6euy; 0xf7uy; 0x81uy; 0x97uy; 0x9cuy; 0x05uy; 0x6fuy; 0x84uy; 0x5fuy; 0xd2uy; 0x42uy; 0xfbuy; 0x38uy; 0xcfuy; 0xd1uy; 0x2fuy; 0x14uy; 0x30uy; 0x88uy; 0x98uy; 0x4duy; 0x5auy; 0xa9uy; 0x76uy; 0xd5uy; 0x4fuy; 0x3euy; 0x70uy; 0x6cuy; 0x85uy; 0x76uy; 0xd7uy; 0x01uy; 0xa0uy; 0x1auy; 0xc8uy; 0x4euy; 0xaauy; 0xacuy; 0x78uy; 0xfeuy; 0x46uy; 0xdeuy; 0x6auy; 0x05uy; 0x46uy; 0xa7uy; 0x43uy; 0x0cuy; 0xb9uy; 0xdeuy; 0xb9uy; 0x68uy; 0xfbuy; 0xceuy; 0x42uy; 0x99uy; 0x07uy; 0x4duy; 0x0buy; 0x3buy; 0x5auy; 0x30uy; 0x35uy; 0xa8uy; 0xf9uy; 0x3auy; 0x73uy; 0xefuy; 0x0fuy; 0xdbuy; 0x1euy; 0x16uy; 0x42uy; 0xc4uy; 0xbauy; 0xaeuy; 0x58uy; 0xaauy; 0xf8uy; 0xe5uy; 0x75uy; 0x2fuy; 0x1buy; 0x15uy; 0x5cuy; 0xfduy; 0x0auy; 0x97uy; 0xd0uy; 0xe4uy; 0x37uy; 0x83uy; 0x61uy; 0x5fuy; 0x43uy; 0xa6uy; 0xc7uy; 0x3fuy; 0x38uy; 0x59uy; 0xe6uy; 0xebuy; 0xa3uy; 0x90uy; 0xc3uy; 0xaauy; 0xaauy; 0x5auy; 0xd3uy; 0x34uy; 0xd4uy; 0x17uy; 0xc8uy; 0x65uy; 0x3euy; 0x57uy; 0xbcuy; 0x5euy; 0xdduy; 0x9euy; 0xb7uy; 0xf0uy; 0x2euy; 0x5buy; 0xb2uy; 0x1fuy; 0x8auy; 0x08uy; 0x0duy; 0x45uy; 0x91uy; 0x0buy; 0x29uy; 0x53uy; 0x4fuy; 0x4cuy; 0x5auy; 0x73uy; 0x56uy; 0xfeuy; 0xafuy; 0x41uy; 0x01uy; 0x39uy; 0x0auy; 0x24uy; 0x3cuy; 0x7euy; 0xbeuy; 0x4euy; 0x53uy; 0xf3uy; 0xebuy; 0x06uy; 0x66uy; 0x51uy; 0x28uy; 0x1duy; 0xbduy; 0x41uy; 0x0auy; 0x01uy; 0xabuy; 0x16uy; 0x47uy; 0x27uy; 0x47uy; 0x47uy; 0xf7uy; 0xcbuy; 0x46uy; 0x0auy; 0x70uy; 0x9euy; 0x01uy; 0x9cuy; 0x09uy; 0xe1uy; 0x2auy; 0x00uy; 0x1auy; 0xd8uy; 0xd4uy; 0x79uy; 0x9duy; 0x80uy; 0x15uy; 0x8euy; 0x53uy; 0x2auy; 0x65uy; 0x83uy; 0x78uy; 0x3euy; 0x03uy; 0x00uy; 0x07uy; 0x12uy; 0x1fuy; 0x33uy; 0x3euy; 0x7buy; 0x13uy; 0x37uy; 0xf1uy; 0xc3uy; 0xefuy; 0xb7uy; 0xc1uy; 0x20uy; 0x3cuy; 0x3euy; 0x67uy; 0x66uy; 0x5duy; 0x88uy; 0xa7uy; 0x7duy; 0x33uy; 0x50uy; 0x77uy; 0xb0uy; 0x28uy; 0x8euy; 0xe7uy; 0x2cuy; 0x2euy; 0x7auy; 0xf4uy; 0x3cuy; 0x8duy; 0x74uy; 0x83uy; 0xafuy; 0x8euy; 0x87uy; 0x0fuy; 0xe4uy; 0x50uy; 0xffuy; 0x84uy; 0x5cuy; 0x47uy; 0x0cuy; 0x6auy; 0x49uy; 0xbfuy; 0x42uy; 0x86uy; 0x77uy; 0x15uy; 0x48uy; 0xa5uy; 0x90uy; 0x5duy; 0x93uy; 0xd6uy; 0x2auy; 0x11uy; 0xd5uy; 0xd5uy; 0x11uy; 0xaauy; 0xceuy; 0xe7uy; 0x6fuy; 0xa5uy; 0xb0uy; 0x09uy; 0x2cuy; 0x8duy; 0xd3uy; 0x92uy; 0xf0uy; 0x5auy; 0x2auy; 0xdauy; 0x5buy; 0x1euy; 0xd5uy; 0x9auy; 0xc4uy; 0xc4uy; 0xf3uy; 0x49uy; 0x74uy; 0x41uy; 0xcauy; 0xe8uy; 0xc1uy; 0xf8uy; 0x44uy; 0xd6uy; 0x3cuy; 0xaeuy; 0x6cuy; 0x1duy; 0x9auy; 0x30uy; 0x04uy; 0x4duy; 0x27uy; 0x0euy; 0xb1uy; 0x5fuy; 0x59uy; 0xa2uy; 0x24uy; 0xe8uy; 0xe1uy; 0x98uy; 0xc5uy; 0x6auy; 0x4cuy; 0xfeuy; 0x41uy; 0xd2uy; 0x27uy; 0x42uy; 0x52uy; 0xe1uy; 0xe9uy; 0x7duy; 0x62uy; 0xe4uy; 0x88uy; 0x0fuy; 0xaduy; 0xb2uy; 0x70uy; 0xcbuy; 0x9duy; 0x4cuy; 0x27uy; 0x2euy; 0x76uy; 0x1euy; 0x1auy; 0x63uy; 0x65uy; 0xf5uy; 0x3buy; 0xf8uy; 0x57uy; 0x69uy; 0xebuy; 0x5buy; 0x38uy; 0x26uy; 0x39uy; 0x33uy; 0x25uy; 0x45uy; 0x3euy; 0x91uy; 0xb8uy; 0xd8uy; 0xc7uy; 0xd5uy; 0x42uy; 0xc0uy; 0x22uy; 0x31uy; 0x74uy; 0xf4uy; 0xbcuy; 0x0cuy; 0x23uy; 0xf1uy; 0xcauy; 0xc1uy; 0x8duy; 0xd7uy; 0xbeuy; 0xc9uy; 0x62uy; 0xe4uy; 0x08uy; 0x1auy; 0xcfuy; 0x36uy; 0xd5uy; 0xfeuy; 0x55uy; 0x21uy; 0x59uy; 0x91uy; 0x87uy; 0x87uy; 0xdfuy; 0x06uy; 0xdbuy; 0xdfuy; 0x96uy; 0x45uy; 0x58uy; 0xdauy; 0x05uy; 0xcduy; 0x50uy; 0x4duy; 0xd2uy; 0x7duy; 0x05uy; 0x18uy; 0x73uy; 0x6auy; 0x8duy; 0x11uy; 0x85uy; 0xa6uy; 0x88uy; 0xe8uy; 0xdauy; 0xe6uy; 0x30uy; 0x33uy; 0xa4uy; 0x89uy; 0x31uy; 0x75uy; 0xbeuy; 0x69uy; 0x43uy; 0x84uy; 0x43uy; 0x50uy; 0x87uy; 0xdduy; 0x71uy; 0x36uy; 0x83uy; 0xc3uy; 0x78uy; 0x74uy; 0x24uy; 0x0auy; 0xeduy; 0x7buy; 0xdbuy; 0xa4uy; 0x24uy; 0x0buy; 0xb9uy; 0x7euy; 0x5duy; 0xffuy; 0xdeuy; 0xb1uy; 0xefuy; 0x61uy; 0x5auy; 0x45uy; 0x33uy; 0xf6uy; 0x17uy; 0x07uy; 0x08uy; 0x98uy; 0x83uy; 0x92uy; 0x0fuy; 0x23uy; 0x6duy; 0xe6uy; 0xaauy; 0x17uy; 0x54uy; 0xaduy; 0x6auy; 0xc8uy; 0xdbuy; 0x26uy; 0xbeuy; 0xb8uy; 0xb6uy; 0x08uy; 0xfauy; 0x68uy; 0xf1uy; 0xd7uy; 0x79uy; 0x6fuy; 0x18uy; 0xb4uy; 0x9euy; 0x2duy; 0x3fuy; 0x1buy; 0x64uy; 0xafuy; 0x8duy; 0x06uy; 0x0euy; 0x49uy; 0x28uy; 0xe0uy; 0x5duy; 0x45uy; 0x68uy; 0x13uy; 0x87uy; 0xfauy; 0xdeuy; 0x40uy; 0x7buy; 0xd2uy; 0xc3uy; 0x94uy; 0xd5uy; 0xe1uy; 0xd9uy; 0xc2uy; 0xafuy; 0x55uy; 0x89uy; 0xebuy; 0xb4uy; 0x12uy; 0x59uy; 0xa8uy; 0xd4uy; 0xc5uy; 0x29uy; 0x66uy; 0x38uy; 0xe6uy; 0xacuy; 0x22uy; 0x22uy; 0xd9uy; 0x64uy; 0x9buy; 0x34uy; 0x0auy; 0x32uy; 0x9fuy; 0xc2uy; 0xbfuy; 0x17uy; 0x6cuy; 0x3fuy; 0x71uy; 0x7auy; 0x38uy; 0x6buy; 0x98uy; 0xfbuy; 0x49uy; 0x36uy; 0x89uy; 0xc9uy; 0xe2uy; 0xd6uy; 0xc7uy; 0x5duy; 0xd0uy; 0x69uy; 0x5fuy; 0x23uy; 0x35uy; 0xc9uy; 0x30uy; 0xe2uy; 0xfduy; 0x44uy; 0x58uy; 0x39uy; 0xd7uy; 0x97uy; 0xfbuy; 0x5cuy; 0x00uy; 0xd5uy; 0x4fuy; 0x7auy; 0x1auy; 0x95uy; 0x8buy; 0x62uy; 0x4buy; 0xceuy; 0xe5uy; 0x91uy; 0x21uy; 0x7buy; 0x30uy; 0x00uy; 0xd6uy; 0xdduy; 0x6duy; 0x02uy; 0x86uy; 0x49uy; 0x0fuy; 0x3cuy; 0x1auy; 0x27uy; 0x3cuy; 0xd3uy; 0x0euy; 0x71uy; 0xf2uy; 0xffuy; 0xf5uy; 0x2fuy; 0x87uy; 0xacuy; 0x67uy; 0x59uy; 0x81uy; 0xa3uy; 0xf7uy; 0xf8uy; 0xd6uy; 0x11uy; 0x0cuy; 0x84uy; 0xa9uy; 0x03uy; 0xeeuy; 0x2auy; 0xc4uy; 0xf3uy; 0x22uy; 0xabuy; 0x7cuy; 0xe2uy; 0x25uy; 0xf5uy; 0x67uy; 0xa3uy; 0xe4uy; 0x11uy; 0xe0uy; 0x59uy; 0xb3uy; 0xcauy; 0x87uy; 0xa0uy; 0xaeuy; 0xc9uy; 0xa6uy; 0x62uy; 0x1buy; 0x6euy; 0x4duy; 0x02uy; 0x6buy; 0x07uy; 0x9duy; 0xfduy; 0xd0uy; 0x92uy; 0x06uy; 0xe1uy; 0xb2uy; 0x9auy; 0x4auy; 0x1fuy; 0x1fuy; 0x13uy; 0x49uy; 0x99uy; 0x97uy; 0x08uy; 0xdeuy; 0x7fuy; 0x98uy; 0xafuy; 0x51uy; 0x98uy; 0xeeuy; 0x2cuy; 0xcbuy; 0xf0uy; 0x0buy; 0xc6uy; 0xb6uy; 0xb7uy; 0x2duy; 0x9auy; 0xb1uy; 0xacuy; 0xa6uy; 0xe3uy; 0x15uy; 0x77uy; 0x9duy; 0x6buy; 0x1auy; 0xe4uy; 0xfcuy; 0x8buy; 0xf2uy; 0x17uy; 0x59uy; 0x08uy; 0x04uy; 0x58uy; 0x81uy; 0x9duy; 0x1buy; 0x1buy; 0x69uy; 0x55uy; 0xc2uy; 0xb4uy; 0x3cuy; 0x1fuy; 0x50uy; 0xf1uy; 0x7fuy; 0x77uy; 0x90uy; 0x4cuy; 0x66uy; 0x40uy; 0x5auy; 0xc0uy; 0x33uy; 0x1fuy; 0xcbuy; 0x05uy; 0x6duy; 0x5cuy; 0x06uy; 0x87uy; 0x52uy; 0xa2uy; 0x8fuy; 0x26uy; 0xd5uy; 0x4fuy; ] in
assert_norm (List.Tot.length l = 1024);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) =
1024ul
let output9: (b: B.buffer UInt8.t { B.length b = 1040 /\ B.recallable b }) =
[@inline_let] let l = [ 0xe5uy; 0x26uy; 0xa4uy; 0x3duy; 0xbduy; 0x33uy; 0xd0uy; 0x4buy; 0x6fuy; 0x05uy; 0xa7uy; 0x6euy; 0x12uy; 0x7auy; 0xd2uy; 0x74uy; 0xa6uy; 0xdduy; 0xbduy; 0x95uy; 0xebuy; 0xf9uy; 0xa4uy; 0xf1uy; 0x59uy; 0x93uy; 0x91uy; 0x70uy; 0xd9uy; 0xfeuy; 0x9auy; 0xcduy; 0x53uy; 0x1fuy; 0x3auy; 0xabuy; 0xa6uy; 0x7cuy; 0x9fuy; 0xa6uy; 0x9euy; 0xbduy; 0x99uy; 0xd9uy; 0xb5uy; 0x97uy; 0x44uy; 0xd5uy; 0x14uy; 0x48uy; 0x4duy; 0x9duy; 0xc0uy; 0xd0uy; 0x05uy; 0x96uy; 0xebuy; 0x4cuy; 0x78uy; 0x55uy; 0x09uy; 0x08uy; 0x01uy; 0x02uy; 0x30uy; 0x90uy; 0x7buy; 0x96uy; 0x7auy; 0x7buy; 0x5fuy; 0x30uy; 0x41uy; 0x24uy; 0xceuy; 0x68uy; 0x61uy; 0x49uy; 0x86uy; 0x57uy; 0x82uy; 0xdduy; 0x53uy; 0x1cuy; 0x51uy; 0x28uy; 0x2buy; 0x53uy; 0x6euy; 0x2duy; 0xc2uy; 0x20uy; 0x4cuy; 0xdduy; 0x8fuy; 0x65uy; 0x10uy; 0x20uy; 0x50uy; 0xdduy; 0x9duy; 0x50uy; 0xe5uy; 0x71uy; 0x40uy; 0x53uy; 0x69uy; 0xfcuy; 0x77uy; 0x48uy; 0x11uy; 0xb9uy; 0xdeuy; 0xa4uy; 0x8duy; 0x58uy; 0xe4uy; 0xa6uy; 0x1auy; 0x18uy; 0x47uy; 0x81uy; 0x7euy; 0xfcuy; 0xdduy; 0xf6uy; 0xefuy; 0xceuy; 0x2fuy; 0x43uy; 0x68uy; 0xd6uy; 0x06uy; 0xe2uy; 0x74uy; 0x6auy; 0xaduy; 0x90uy; 0xf5uy; 0x37uy; 0xf3uy; 0x3duy; 0x82uy; 0x69uy; 0x40uy; 0xe9uy; 0x6buy; 0xa7uy; 0x3duy; 0xa8uy; 0x1euy; 0xd2uy; 0x02uy; 0x7cuy; 0xb7uy; 0x9buy; 0xe4uy; 0xdauy; 0x8fuy; 0x95uy; 0x06uy; 0xc5uy; 0xdfuy; 0x73uy; 0xa3uy; 0x20uy; 0x9auy; 0x49uy; 0xdeuy; 0x9cuy; 0xbcuy; 0xeeuy; 0x14uy; 0x3fuy; 0x81uy; 0x5euy; 0xf8uy; 0x3buy; 0x59uy; 0x3cuy; 0xe1uy; 0x68uy; 0x12uy; 0x5auy; 0x3auy; 0x76uy; 0x3auy; 0x3fuy; 0xf7uy; 0x87uy; 0x33uy; 0x0auy; 0x01uy; 0xb8uy; 0xd4uy; 0xeduy; 0xb6uy; 0xbeuy; 0x94uy; 0x5euy; 0x70uy; 0x40uy; 0x56uy; 0x67uy; 0x1fuy; 0x50uy; 0x44uy; 0x19uy; 0xceuy; 0x82uy; 0x70uy; 0x10uy; 0x87uy; 0x13uy; 0x20uy; 0x0buy; 0x4cuy; 0x5auy; 0xb6uy; 0xf6uy; 0xa7uy; 0xaeuy; 0x81uy; 0x75uy; 0x01uy; 0x81uy; 0xe6uy; 0x4buy; 0x57uy; 0x7cuy; 0xdduy; 0x6duy; 0xf8uy; 0x1cuy; 0x29uy; 0x32uy; 0xf7uy; 0xdauy; 0x3cuy; 0x2duy; 0xf8uy; 0x9buy; 0x25uy; 0x6euy; 0x00uy; 0xb4uy; 0xf7uy; 0x2fuy; 0xf7uy; 0x04uy; 0xf7uy; 0xa1uy; 0x56uy; 0xacuy; 0x4fuy; 0x1auy; 0x64uy; 0xb8uy; 0x47uy; 0x55uy; 0x18uy; 0x7buy; 0x07uy; 0x4duy; 0xbduy; 0x47uy; 0x24uy; 0x80uy; 0x5duy; 0xa2uy; 0x70uy; 0xc5uy; 0xdduy; 0x8euy; 0x82uy; 0xd4uy; 0xebuy; 0xecuy; 0xb2uy; 0x0cuy; 0x39uy; 0xd2uy; 0x97uy; 0xc1uy; 0xcbuy; 0xebuy; 0xf4uy; 0x77uy; 0x59uy; 0xb4uy; 0x87uy; 0xefuy; 0xcbuy; 0x43uy; 0x2duy; 0x46uy; 0x54uy; 0xd1uy; 0xa7uy; 0xd7uy; 0x15uy; 0x99uy; 0x0auy; 0x43uy; 0xa1uy; 0xe0uy; 0x99uy; 0x33uy; 0x71uy; 0xc1uy; 0xeduy; 0xfeuy; 0x72uy; 0x46uy; 0x33uy; 0x8euy; 0x91uy; 0x08uy; 0x9fuy; 0xc8uy; 0x2euy; 0xcauy; 0xfauy; 0xdcuy; 0x59uy; 0xd5uy; 0xc3uy; 0x76uy; 0x84uy; 0x9fuy; 0xa3uy; 0x37uy; 0x68uy; 0xc3uy; 0xf0uy; 0x47uy; 0x2cuy; 0x68uy; 0xdbuy; 0x5euy; 0xc3uy; 0x49uy; 0x4cuy; 0xe8uy; 0x92uy; 0x85uy; 0xe2uy; 0x23uy; 0xd3uy; 0x3fuy; 0xaduy; 0x32uy; 0xe5uy; 0x2buy; 0x82uy; 0xd7uy; 0x8fuy; 0x99uy; 0x0auy; 0x59uy; 0x5cuy; 0x45uy; 0xd9uy; 0xb4uy; 0x51uy; 0x52uy; 0xc2uy; 0xaeuy; 0xbfuy; 0x80uy; 0xcfuy; 0xc9uy; 0xc9uy; 0x51uy; 0x24uy; 0x2auy; 0x3buy; 0x3auy; 0x4duy; 0xaeuy; 0xebuy; 0xbduy; 0x22uy; 0xc3uy; 0x0euy; 0x0fuy; 0x59uy; 0x25uy; 0x92uy; 0x17uy; 0xe9uy; 0x74uy; 0xc7uy; 0x8buy; 0x70uy; 0x70uy; 0x36uy; 0x55uy; 0x95uy; 0x75uy; 0x4buy; 0xaduy; 0x61uy; 0x2buy; 0x09uy; 0xbcuy; 0x82uy; 0xf2uy; 0x6euy; 0x94uy; 0x43uy; 0xaeuy; 0xc3uy; 0xd5uy; 0xcduy; 0x8euy; 0xfeuy; 0x5buy; 0x9auy; 0x88uy; 0x43uy; 0x01uy; 0x75uy; 0xb2uy; 0x23uy; 0x09uy; 0xf7uy; 0x89uy; 0x83uy; 0xe7uy; 0xfauy; 0xf9uy; 0xb4uy; 0x9buy; 0xf8uy; 0xefuy; 0xbduy; 0x1cuy; 0x92uy; 0xc1uy; 0xdauy; 0x7euy; 0xfeuy; 0x05uy; 0xbauy; 0x5auy; 0xcduy; 0x07uy; 0x6auy; 0x78uy; 0x9euy; 0x5duy; 0xfbuy; 0x11uy; 0x2fuy; 0x79uy; 0x38uy; 0xb6uy; 0xc2uy; 0x5buy; 0x6buy; 0x51uy; 0xb4uy; 0x71uy; 0xdduy; 0xf7uy; 0x2auy; 0xe4uy; 0xf4uy; 0x72uy; 0x76uy; 0xaduy; 0xc2uy; 0xdduy; 0x64uy; 0x5duy; 0x79uy; 0xb6uy; 0xf5uy; 0x7auy; 0x77uy; 0x20uy; 0x05uy; 0x3duy; 0x30uy; 0x06uy; 0xd4uy; 0x4cuy; 0x0auy; 0x2cuy; 0x98uy; 0x5auy; 0xb9uy; 0xd4uy; 0x98uy; 0xa9uy; 0x3fuy; 0xc6uy; 0x12uy; 0xeauy; 0x3buy; 0x4buy; 0xc5uy; 0x79uy; 0x64uy; 0x63uy; 0x6buy; 0x09uy; 0x54uy; 0x3buy; 0x14uy; 0x27uy; 0xbauy; 0x99uy; 0x80uy; 0xc8uy; 0x72uy; 0xa8uy; 0x12uy; 0x90uy; 0x29uy; 0xbauy; 0x40uy; 0x54uy; 0x97uy; 0x2buy; 0x7buy; 0xfeuy; 0xebuy; 0xcduy; 0x01uy; 0x05uy; 0x44uy; 0x72uy; 0xdbuy; 0x99uy; 0xe4uy; 0x61uy; 0xc9uy; 0x69uy; 0xd6uy; 0xb9uy; 0x28uy; 0xd1uy; 0x05uy; 0x3euy; 0xf9uy; 0x0buy; 0x49uy; 0x0auy; 0x49uy; 0xe9uy; 0x8duy; 0x0euy; 0xa7uy; 0x4auy; 0x0fuy; 0xafuy; 0x32uy; 0xd0uy; 0xe0uy; 0xb2uy; 0x3auy; 0x55uy; 0x58uy; 0xfeuy; 0x5cuy; 0x28uy; 0x70uy; 0x51uy; 0x23uy; 0xb0uy; 0x7buy; 0x6auy; 0x5fuy; 0x1euy; 0xb8uy; 0x17uy; 0xd7uy; 0x94uy; 0x15uy; 0x8fuy; 0xeeuy; 0x20uy; 0xc7uy; 0x42uy; 0x25uy; 0x3euy; 0x9auy; 0x14uy; 0xd7uy; 0x60uy; 0x72uy; 0x39uy; 0x47uy; 0x48uy; 0xa9uy; 0xfeuy; 0xdduy; 0x47uy; 0x0auy; 0xb1uy; 0xe6uy; 0x60uy; 0x28uy; 0x8cuy; 0x11uy; 0x68uy; 0xe1uy; 0xffuy; 0xd7uy; 0xceuy; 0xc8uy; 0xbeuy; 0xb3uy; 0xfeuy; 0x27uy; 0x30uy; 0x09uy; 0x70uy; 0xd7uy; 0xfauy; 0x02uy; 0x33uy; 0x3auy; 0x61uy; 0x2euy; 0xc7uy; 0xffuy; 0xa4uy; 0x2auy; 0xa8uy; 0x6euy; 0xb4uy; 0x79uy; 0x35uy; 0x6duy; 0x4cuy; 0x1euy; 0x38uy; 0xf8uy; 0xeeuy; 0xd4uy; 0x84uy; 0x4euy; 0x6euy; 0x28uy; 0xa7uy; 0xceuy; 0xc8uy; 0xc1uy; 0xcfuy; 0x80uy; 0x05uy; 0xf3uy; 0x04uy; 0xefuy; 0xc8uy; 0x18uy; 0x28uy; 0x2euy; 0x8duy; 0x5euy; 0x0cuy; 0xdfuy; 0xb8uy; 0x5fuy; 0x96uy; 0xe8uy; 0xc6uy; 0x9cuy; 0x2fuy; 0xe5uy; 0xa6uy; 0x44uy; 0xd7uy; 0xe7uy; 0x99uy; 0x44uy; 0x0cuy; 0xecuy; 0xd7uy; 0x05uy; 0x60uy; 0x97uy; 0xbbuy; 0x74uy; 0x77uy; 0x58uy; 0xd5uy; 0xbbuy; 0x48uy; 0xdeuy; 0x5auy; 0xb2uy; 0x54uy; 0x7fuy; 0x0euy; 0x46uy; 0x70uy; 0x6auy; 0x6fuy; 0x78uy; 0xa5uy; 0x08uy; 0x89uy; 0x05uy; 0x4euy; 0x7euy; 0xa0uy; 0x69uy; 0xb4uy; 0x40uy; 0x60uy; 0x55uy; 0x77uy; 0x75uy; 0x9buy; 0x19uy; 0xf2uy; 0xd5uy; 0x13uy; 0x80uy; 0x77uy; 0xf9uy; 0x4buy; 0x3fuy; 0x1euy; 0xeeuy; 0xe6uy; 0x76uy; 0x84uy; 0x7buy; 0x8cuy; 0xe5uy; 0x27uy; 0xa8uy; 0x0auy; 0x91uy; 0x01uy; 0x68uy; 0x71uy; 0x8auy; 0x3fuy; 0x06uy; 0xabuy; 0xf6uy; 0xa9uy; 0xa5uy; 0xe6uy; 0x72uy; 0x92uy; 0xe4uy; 0x67uy; 0xe2uy; 0xa2uy; 0x46uy; 0x35uy; 0x84uy; 0x55uy; 0x7duy; 0xcauy; 0xa8uy; 0x85uy; 0xd0uy; 0xf1uy; 0x3fuy; 0xbeuy; 0xd7uy; 0x34uy; 0x64uy; 0xfcuy; 0xaeuy; 0xe3uy; 0xe4uy; 0x04uy; 0x9fuy; 0x66uy; 0x02uy; 0xb9uy; 0x88uy; 0x10uy; 0xd9uy; 0xc4uy; 0x4cuy; 0x31uy; 0x43uy; 0x7auy; 0x93uy; 0xe2uy; 0x9buy; 0x56uy; 0x43uy; 0x84uy; 0xdcuy; 0xdcuy; 0xdeuy; 0x1duy; 0xa4uy; 0x02uy; 0x0euy; 0xc2uy; 0xefuy; 0xc3uy; 0xf8uy; 0x78uy; 0xd1uy; 0xb2uy; 0x6buy; 0x63uy; 0x18uy; 0xc9uy; 0xa9uy; 0xe5uy; 0x72uy; 0xd8uy; 0xf3uy; 0xb9uy; 0xd1uy; 0x8auy; 0xc7uy; 0x1auy; 0x02uy; 0x27uy; 0x20uy; 0x77uy; 0x10uy; 0xe5uy; 0xc8uy; 0xd4uy; 0x4auy; 0x47uy; 0xe5uy; 0xdfuy; 0x5fuy; 0x01uy; 0xaauy; 0xb0uy; 0xd4uy; 0x10uy; 0xbbuy; 0x69uy; 0xe3uy; 0x36uy; 0xc8uy; 0xe1uy; 0x3duy; 0x43uy; 0xfbuy; 0x86uy; 0xcduy; 0xccuy; 0xbfuy; 0xf4uy; 0x88uy; 0xe0uy; 0x20uy; 0xcauy; 0xb7uy; 0x1buy; 0xf1uy; 0x2fuy; 0x5cuy; 0xeeuy; 0xd4uy; 0xd3uy; 0xa3uy; 0xccuy; 0xa4uy; 0x1euy; 0x1cuy; 0x47uy; 0xfbuy; 0xbfuy; 0xfcuy; 0xa2uy; 0x41uy; 0x55uy; 0x9duy; 0xf6uy; 0x5auy; 0x5euy; 0x65uy; 0x32uy; 0x34uy; 0x7buy; 0x52uy; 0x8duy; 0xd5uy; 0xd0uy; 0x20uy; 0x60uy; 0x03uy; 0xabuy; 0x3fuy; 0x8cuy; 0xd4uy; 0x21uy; 0xeauy; 0x2auy; 0xd9uy; 0xc4uy; 0xd0uy; 0xd3uy; 0x65uy; 0xd8uy; 0x7auy; 0x13uy; 0x28uy; 0x62uy; 0x32uy; 0x4buy; 0x2cuy; 0x87uy; 0x93uy; 0xa8uy; 0xb4uy; 0x52uy; 0x45uy; 0x09uy; 0x44uy; 0xecuy; 0xecuy; 0xc3uy; 0x17uy; 0xdbuy; 0x9auy; 0x4duy; 0x5cuy; 0xa9uy; 0x11uy; 0xd4uy; 0x7duy; 0xafuy; 0x9euy; 0xf1uy; 0x2duy; 0xb2uy; 0x66uy; 0xc5uy; 0x1duy; 0xeduy; 0xb7uy; 0xcduy; 0x0buy; 0x25uy; 0x5euy; 0x30uy; 0x47uy; 0x3fuy; 0x40uy; 0xf4uy; 0xa1uy; 0xa0uy; 0x00uy; 0x94uy; 0x10uy; 0xc5uy; 0x6auy; 0x63uy; 0x1auy; 0xd5uy; 0x88uy; 0x92uy; 0x8euy; 0x82uy; 0x39uy; 0x87uy; 0x3cuy; 0x78uy; 0x65uy; 0x58uy; 0x42uy; 0x75uy; 0x5buy; 0xdduy; 0x77uy; 0x3euy; 0x09uy; 0x4euy; 0x76uy; 0x5buy; 0xe6uy; 0x0euy; 0x4duy; 0x38uy; 0xb2uy; 0xc0uy; 0xb8uy; 0x95uy; 0x01uy; 0x7auy; 0x10uy; 0xe0uy; 0xfbuy; 0x07uy; 0xf2uy; 0xabuy; 0x2duy; 0x8cuy; 0x32uy; 0xeduy; 0x2buy; 0xc0uy; 0x46uy; 0xc2uy; 0xf5uy; 0x38uy; 0x83uy; 0xf0uy; 0x17uy; 0xecuy; 0xc1uy; 0x20uy; 0x6auy; 0x9auy; 0x0buy; 0x00uy; 0xa0uy; 0x98uy; 0x22uy; 0x50uy; 0x23uy; 0xd5uy; 0x80uy; 0x6buy; 0xf6uy; 0x1fuy; 0xc3uy; 0xccuy; 0x97uy; 0xc9uy; 0x24uy; 0x9fuy; 0xf3uy; 0xafuy; 0x43uy; 0x14uy; 0xd5uy; 0xa0uy; ] in
assert_norm (List.Tot.length l = 1040);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output9_len: (x:UInt32.t { UInt32.v x = B.length output9 }) =
1040ul
let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0x35uy; 0x4euy; 0xb5uy; 0x70uy; 0x50uy; 0x42uy; 0x8auy; 0x85uy; 0xf2uy; 0xfbuy; 0xeduy; 0x7buy; 0xd0uy; 0x9euy; 0x97uy; 0xcauy; 0xfauy; 0x98uy; 0x66uy; 0x63uy; 0xeeuy; 0x37uy; 0xccuy; 0x52uy; 0xfeuy; 0xd1uy; 0xdfuy; 0x95uy; 0x15uy; 0x34uy; 0x29uy; 0x38uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) =
32ul
let nonce10: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0xfduy; 0x87uy; 0xd4uy; 0xd8uy; 0x62uy; 0xfduy; 0xecuy; 0xaauy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce10_len: (x:UInt32.t { UInt32.v x = B.length nonce10 }) =
12ul
let aad10: (b: B.buffer UInt8.t { B.length b = 7 /\ B.recallable b }) =
[@inline_let] let l = [ 0xd6uy; 0x31uy; 0xdauy; 0x5duy; 0x42uy; 0x5euy; 0xd7uy; ] in
assert_norm (List.Tot.length l = 7);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad10_len: (x:UInt32.t { UInt32.v x = B.length aad10 }) =
7ul
let input10: (b: B.buffer UInt8.t { B.length b = 1933 /\ B.recallable b /\ B.disjoint b aad10 }) =
B.recall aad10;[@inline_let] let l = [ 0x7auy; 0x57uy; 0xf2uy; 0xc7uy; 0x06uy; 0x3fuy; 0x50uy; 0x7buy; 0x36uy; 0x1auy; 0x66uy; 0x5cuy; 0xb9uy; 0x0euy; 0x5euy; 0x3buy; 0x45uy; 0x60uy; 0xbeuy; 0x9auy; 0x31uy; 0x9fuy; 0xffuy; 0x5duy; 0x66uy; 0x34uy; 0xb4uy; 0xdcuy; 0xfbuy; 0x9duy; 0x8euy; 0xeeuy; 0x6auy; 0x33uy; 0xa4uy; 0x07uy; 0x3cuy; 0xf9uy; 0x4cuy; 0x30uy; 0xa1uy; 0x24uy; 0x52uy; 0xf9uy; 0x50uy; 0x46uy; 0x88uy; 0x20uy; 0x02uy; 0x32uy; 0x3auy; 0x0euy; 0x99uy; 0x63uy; 0xafuy; 0x1fuy; 0x15uy; 0x28uy; 0x2auy; 0x05uy; 0xffuy; 0x57uy; 0x59uy; 0x5euy; 0x18uy; 0xa1uy; 0x1fuy; 0xd0uy; 0x92uy; 0x5cuy; 0x88uy; 0x66uy; 0x1buy; 0x00uy; 0x64uy; 0xa5uy; 0x93uy; 0x8duy; 0x06uy; 0x46uy; 0xb0uy; 0x64uy; 0x8buy; 0x8buy; 0xefuy; 0x99uy; 0x05uy; 0x35uy; 0x85uy; 0xb3uy; 0xf3uy; 0x33uy; 0xbbuy; 0xecuy; 0x66uy; 0xb6uy; 0x3duy; 0x57uy; 0x42uy; 0xe3uy; 0xb4uy; 0xc6uy; 0xaauy; 0xb0uy; 0x41uy; 0x2auy; 0xb9uy; 0x59uy; 0xa9uy; 0xf6uy; 0x3euy; 0x15uy; 0x26uy; 0x12uy; 0x03uy; 0x21uy; 0x4cuy; 0x74uy; 0x43uy; 0x13uy; 0x2auy; 0x03uy; 0x27uy; 0x09uy; 0xb4uy; 0xfbuy; 0xe7uy; 0xb7uy; 0x40uy; 0xffuy; 0x5euy; 0xceuy; 0x48uy; 0x9auy; 0x60uy; 0xe3uy; 0x8buy; 0x80uy; 0x8cuy; 0x38uy; 0x2duy; 0xcbuy; 0x93uy; 0x37uy; 0x74uy; 0x05uy; 0x52uy; 0x6fuy; 0x73uy; 0x3euy; 0xc3uy; 0xbcuy; 0xcauy; 0x72uy; 0x0auy; 0xebuy; 0xf1uy; 0x3buy; 0xa0uy; 0x95uy; 0xdcuy; 0x8auy; 0xc4uy; 0xa9uy; 0xdcuy; 0xcauy; 0x44uy; 0xd8uy; 0x08uy; 0x63uy; 0x6auy; 0x36uy; 0xd3uy; 0x3cuy; 0xb8uy; 0xacuy; 0x46uy; 0x7duy; 0xfduy; 0xaauy; 0xebuy; 0x3euy; 0x0fuy; 0x45uy; 0x8fuy; 0x49uy; 0xdauy; 0x2buy; 0xf2uy; 0x12uy; 0xbduy; 0xafuy; 0x67uy; 0x8auy; 0x63uy; 0x48uy; 0x4buy; 0x55uy; 0x5fuy; 0x6duy; 0x8cuy; 0xb9uy; 0x76uy; 0x34uy; 0x84uy; 0xaeuy; 0xc2uy; 0xfcuy; 0x52uy; 0x64uy; 0x82uy; 0xf7uy; 0xb0uy; 0x06uy; 0xf0uy; 0x45uy; 0x73uy; 0x12uy; 0x50uy; 0x30uy; 0x72uy; 0xeauy; 0x78uy; 0x9auy; 0xa8uy; 0xafuy; 0xb5uy; 0xe3uy; 0xbbuy; 0x77uy; 0x52uy; 0xecuy; 0x59uy; 0x84uy; 0xbfuy; 0x6buy; 0x8fuy; 0xceuy; 0x86uy; 0x5euy; 0x1fuy; 0x23uy; 0xe9uy; 0xfbuy; 0x08uy; 0x86uy; 0xf7uy; 0x10uy; 0xb9uy; 0xf2uy; 0x44uy; 0x96uy; 0x44uy; 0x63uy; 0xa9uy; 0xa8uy; 0x78uy; 0x00uy; 0x23uy; 0xd6uy; 0xc7uy; 0xe7uy; 0x6euy; 0x66uy; 0x4fuy; 0xccuy; 0xeeuy; 0x15uy; 0xb3uy; 0xbduy; 0x1duy; 0xa0uy; 0xe5uy; 0x9cuy; 0x1buy; 0x24uy; 0x2cuy; 0x4duy; 0x3cuy; 0x62uy; 0x35uy; 0x9cuy; 0x88uy; 0x59uy; 0x09uy; 0xdduy; 0x82uy; 0x1buy; 0xcfuy; 0x0auy; 0x83uy; 0x6buy; 0x3fuy; 0xaeuy; 0x03uy; 0xc4uy; 0xb4uy; 0xdduy; 0x7euy; 0x5buy; 0x28uy; 0x76uy; 0x25uy; 0x96uy; 0xd9uy; 0xc9uy; 0x9duy; 0x5fuy; 0x86uy; 0xfauy; 0xf6uy; 0xd7uy; 0xd2uy; 0xe6uy; 0x76uy; 0x1duy; 0x0fuy; 0xa1uy; 0xdcuy; 0x74uy; 0x05uy; 0x1buy; 0x1duy; 0xe0uy; 0xcduy; 0x16uy; 0xb0uy; 0xa8uy; 0x8auy; 0x34uy; 0x7buy; 0x15uy; 0x11uy; 0x77uy; 0xe5uy; 0x7buy; 0x7euy; 0x20uy; 0xf7uy; 0xdauy; 0x38uy; 0xdauy; 0xceuy; 0x70uy; 0xe9uy; 0xf5uy; 0x6cuy; 0xd9uy; 0xbeuy; 0x0cuy; 0x4cuy; 0x95uy; 0x4cuy; 0xc2uy; 0x9buy; 0x34uy; 0x55uy; 0x55uy; 0xe1uy; 0xf3uy; 0x46uy; 0x8euy; 0x48uy; 0x74uy; 0x14uy; 0x4fuy; 0x9duy; 0xc9uy; 0xf5uy; 0xe8uy; 0x1auy; 0xf0uy; 0x11uy; 0x4auy; 0xc1uy; 0x8duy; 0xe0uy; 0x93uy; 0xa0uy; 0xbeuy; 0x09uy; 0x1cuy; 0x2buy; 0x4euy; 0x0fuy; 0xb2uy; 0x87uy; 0x8buy; 0x84uy; 0xfeuy; 0x92uy; 0x32uy; 0x14uy; 0xd7uy; 0x93uy; 0xdfuy; 0xe7uy; 0x44uy; 0xbcuy; 0xc5uy; 0xaeuy; 0x53uy; 0x69uy; 0xd8uy; 0xb3uy; 0x79uy; 0x37uy; 0x80uy; 0xe3uy; 0x17uy; 0x5cuy; 0xecuy; 0x53uy; 0x00uy; 0x9auy; 0xe3uy; 0x8euy; 0xdcuy; 0x38uy; 0xb8uy; 0x66uy; 0xf0uy; 0xd3uy; 0xaduy; 0x1duy; 0x02uy; 0x96uy; 0x86uy; 0x3euy; 0x9duy; 0x3buy; 0x5duy; 0xa5uy; 0x7fuy; 0x21uy; 0x10uy; 0xf1uy; 0x1fuy; 0x13uy; 0x20uy; 0xf9uy; 0x57uy; 0x87uy; 0x20uy; 0xf5uy; 0x5fuy; 0xf1uy; 0x17uy; 0x48uy; 0x0auy; 0x51uy; 0x5auy; 0xcduy; 0x19uy; 0x03uy; 0xa6uy; 0x5auy; 0xd1uy; 0x12uy; 0x97uy; 0xe9uy; 0x48uy; 0xe2uy; 0x1duy; 0x83uy; 0x75uy; 0x50uy; 0xd9uy; 0x75uy; 0x7duy; 0x6auy; 0x82uy; 0xa1uy; 0xf9uy; 0x4euy; 0x54uy; 0x87uy; 0x89uy; 0xc9uy; 0x0cuy; 0xb7uy; 0x5buy; 0x6auy; 0x91uy; 0xc1uy; 0x9cuy; 0xb2uy; 0xa9uy; 0xdcuy; 0x9auy; 0xa4uy; 0x49uy; 0x0auy; 0x6duy; 0x0duy; 0xbbuy; 0xdeuy; 0x86uy; 0x44uy; 0xdduy; 0x5duy; 0x89uy; 0x2buy; 0x96uy; 0x0fuy; 0x23uy; 0x95uy; 0xaduy; 0xccuy; 0xa2uy; 0xb3uy; 0xb9uy; 0x7euy; 0x74uy; 0x38uy; 0xbauy; 0x9fuy; 0x73uy; 0xaeuy; 0x5fuy; 0xf8uy; 0x68uy; 0xa2uy; 0xe0uy; 0xa9uy; 0xceuy; 0xbduy; 0x40uy; 0xd4uy; 0x4cuy; 0x6buy; 0xd2uy; 0x56uy; 0x62uy; 0xb0uy; 0xccuy; 0x63uy; 0x7euy; 0x5buy; 0xd3uy; 0xaeuy; 0xd1uy; 0x75uy; 0xceuy; 0xbbuy; 0xb4uy; 0x5buy; 0xa8uy; 0xf8uy; 0xb4uy; 0xacuy; 0x71uy; 0x75uy; 0xaauy; 0xc9uy; 0x9fuy; 0xbbuy; 0x6cuy; 0xaduy; 0x0fuy; 0x55uy; 0x5duy; 0xe8uy; 0x85uy; 0x7duy; 0xf9uy; 0x21uy; 0x35uy; 0xeauy; 0x92uy; 0x85uy; 0x2buy; 0x00uy; 0xecuy; 0x84uy; 0x90uy; 0x0auy; 0x63uy; 0x96uy; 0xe4uy; 0x6buy; 0xa9uy; 0x77uy; 0xb8uy; 0x91uy; 0xf8uy; 0x46uy; 0x15uy; 0x72uy; 0x63uy; 0x70uy; 0x01uy; 0x40uy; 0xa3uy; 0xa5uy; 0x76uy; 0x62uy; 0x2buy; 0xbfuy; 0xf1uy; 0xe5uy; 0x8duy; 0x9fuy; 0xa3uy; 0xfauy; 0x9buy; 0x03uy; 0xbeuy; 0xfeuy; 0x65uy; 0x6fuy; 0xa2uy; 0x29uy; 0x0duy; 0x54uy; 0xb4uy; 0x71uy; 0xceuy; 0xa9uy; 0xd6uy; 0x3duy; 0x88uy; 0xf9uy; 0xafuy; 0x6buy; 0xa8uy; 0x9euy; 0xf4uy; 0x16uy; 0x96uy; 0x36uy; 0xb9uy; 0x00uy; 0xdcuy; 0x10uy; 0xabuy; 0xb5uy; 0x08uy; 0x31uy; 0x1fuy; 0x00uy; 0xb1uy; 0x3cuy; 0xd9uy; 0x38uy; 0x3euy; 0xc6uy; 0x04uy; 0xa7uy; 0x4euy; 0xe8uy; 0xaeuy; 0xeduy; 0x98uy; 0xc2uy; 0xf7uy; 0xb9uy; 0x00uy; 0x5fuy; 0x8cuy; 0x60uy; 0xd1uy; 0xe5uy; 0x15uy; 0xf7uy; 0xaeuy; 0x1euy; 0x84uy; 0x88uy; 0xd1uy; 0xf6uy; 0xbcuy; 0x3auy; 0x89uy; 0x35uy; 0x22uy; 0x83uy; 0x7cuy; 0xcauy; 0xf0uy; 0x33uy; 0x82uy; 0x4cuy; 0x79uy; 0x3cuy; 0xfduy; 0xb1uy; 0xaeuy; 0x52uy; 0x62uy; 0x55uy; 0xd2uy; 0x41uy; 0x60uy; 0xc6uy; 0xbbuy; 0xfauy; 0x0euy; 0x59uy; 0xd6uy; 0xa8uy; 0xfeuy; 0x5duy; 0xeduy; 0x47uy; 0x3duy; 0xe0uy; 0xeauy; 0x1fuy; 0x6euy; 0x43uy; 0x51uy; 0xecuy; 0x10uy; 0x52uy; 0x56uy; 0x77uy; 0x42uy; 0x6buy; 0x52uy; 0x87uy; 0xd8uy; 0xecuy; 0xe0uy; 0xaauy; 0x76uy; 0xa5uy; 0x84uy; 0x2auy; 0x22uy; 0x24uy; 0xfduy; 0x92uy; 0x40uy; 0x88uy; 0xd5uy; 0x85uy; 0x1cuy; 0x1fuy; 0x6buy; 0x47uy; 0xa0uy; 0xc4uy; 0xe4uy; 0xefuy; 0xf4uy; 0xeauy; 0xd7uy; 0x59uy; 0xacuy; 0x2auy; 0x9euy; 0x8cuy; 0xfauy; 0x1fuy; 0x42uy; 0x08uy; 0xfeuy; 0x4fuy; 0x74uy; 0xa0uy; 0x26uy; 0xf5uy; 0xb3uy; 0x84uy; 0xf6uy; 0x58uy; 0x5fuy; 0x26uy; 0x66uy; 0x3euy; 0xd7uy; 0xe4uy; 0x22uy; 0x91uy; 0x13uy; 0xc8uy; 0xacuy; 0x25uy; 0x96uy; 0x23uy; 0xd8uy; 0x09uy; 0xeauy; 0x45uy; 0x75uy; 0x23uy; 0xb8uy; 0x5fuy; 0xc2uy; 0x90uy; 0x8buy; 0x09uy; 0xc4uy; 0xfcuy; 0x47uy; 0x6cuy; 0x6duy; 0x0auy; 0xefuy; 0x69uy; 0xa4uy; 0x38uy; 0x19uy; 0xcfuy; 0x7duy; 0xf9uy; 0x09uy; 0x73uy; 0x9buy; 0x60uy; 0x5auy; 0xf7uy; 0x37uy; 0xb5uy; 0xfeuy; 0x9fuy; 0xe3uy; 0x2buy; 0x4cuy; 0x0duy; 0x6euy; 0x19uy; 0xf1uy; 0xd6uy; 0xc0uy; 0x70uy; 0xf3uy; 0x9duy; 0x22uy; 0x3cuy; 0xf9uy; 0x49uy; 0xceuy; 0x30uy; 0x8euy; 0x44uy; 0xb5uy; 0x76uy; 0x15uy; 0x8fuy; 0x52uy; 0xfduy; 0xa5uy; 0x04uy; 0xb8uy; 0x55uy; 0x6auy; 0x36uy; 0x59uy; 0x7cuy; 0xc4uy; 0x48uy; 0xb8uy; 0xd7uy; 0xabuy; 0x05uy; 0x66uy; 0xe9uy; 0x5euy; 0x21uy; 0x6fuy; 0x6buy; 0x36uy; 0x29uy; 0xbbuy; 0xe9uy; 0xe3uy; 0xa2uy; 0x9auy; 0xa8uy; 0xcduy; 0x55uy; 0x25uy; 0x11uy; 0xbauy; 0x5auy; 0x58uy; 0xa0uy; 0xdeuy; 0xaeuy; 0x19uy; 0x2auy; 0x48uy; 0x5auy; 0xffuy; 0x36uy; 0xcduy; 0x6duy; 0x16uy; 0x7auy; 0x73uy; 0x38uy; 0x46uy; 0xe5uy; 0x47uy; 0x59uy; 0xc8uy; 0xa2uy; 0xf6uy; 0xe2uy; 0x6cuy; 0x83uy; 0xc5uy; 0x36uy; 0x2cuy; 0x83uy; 0x7duy; 0xb4uy; 0x01uy; 0x05uy; 0x69uy; 0xe7uy; 0xafuy; 0x5cuy; 0xc4uy; 0x64uy; 0x82uy; 0x12uy; 0x21uy; 0xefuy; 0xf7uy; 0xd1uy; 0x7duy; 0xb8uy; 0x8duy; 0x8cuy; 0x98uy; 0x7cuy; 0x5fuy; 0x7duy; 0x92uy; 0x88uy; 0xb9uy; 0x94uy; 0x07uy; 0x9cuy; 0xd8uy; 0xe9uy; 0x9cuy; 0x17uy; 0x38uy; 0xe3uy; 0x57uy; 0x6cuy; 0xe0uy; 0xdcuy; 0xa5uy; 0x92uy; 0x42uy; 0xb3uy; 0xbduy; 0x50uy; 0xa2uy; 0x7euy; 0xb5uy; 0xb1uy; 0x52uy; 0x72uy; 0x03uy; 0x97uy; 0xd8uy; 0xaauy; 0x9auy; 0x1euy; 0x75uy; 0x41uy; 0x11uy; 0xa3uy; 0x4fuy; 0xccuy; 0xd4uy; 0xe3uy; 0x73uy; 0xaduy; 0x96uy; 0xdcuy; 0x47uy; 0x41uy; 0x9fuy; 0xb0uy; 0xbeuy; 0x79uy; 0x91uy; 0xf5uy; 0xb6uy; 0x18uy; 0xfeuy; 0xc2uy; 0x83uy; 0x18uy; 0x7duy; 0x73uy; 0xd9uy; 0x4fuy; 0x83uy; 0x84uy; 0x03uy; 0xb3uy; 0xf0uy; 0x77uy; 0x66uy; 0x3duy; 0x83uy; 0x63uy; 0x2euy; 0x2cuy; 0xf9uy; 0xdduy; 0xa6uy; 0x1fuy; 0x89uy; 0x82uy; 0xb8uy; 0x23uy; 0x42uy; 0xebuy; 0xe2uy; 0xcauy; 0x70uy; 0x82uy; 0x61uy; 0x41uy; 0x0auy; 0x6duy; 0x5fuy; 0x75uy; 0xc5uy; 0xe2uy; 0xc4uy; 0x91uy; 0x18uy; 0x44uy; 0x22uy; 0xfauy; 0x34uy; 0x10uy; 0xf5uy; 0x20uy; 0xdcuy; 0xb7uy; 0xdduy; 0x2auy; 0x20uy; 0x77uy; 0xf5uy; 0xf9uy; 0xceuy; 0xdbuy; 0xa0uy; 0x0auy; 0x52uy; 0x2auy; 0x4euy; 0xdduy; 0xccuy; 0x97uy; 0xdfuy; 0x05uy; 0xe4uy; 0x5euy; 0xb7uy; 0xaauy; 0xf0uy; 0xe2uy; 0x80uy; 0xffuy; 0xbauy; 0x1auy; 0x0fuy; 0xacuy; 0xdfuy; 0x02uy; 0x32uy; 0xe6uy; 0xf7uy; 0xc7uy; 0x17uy; 0x13uy; 0xb7uy; 0xfcuy; 0x98uy; 0x48uy; 0x8cuy; 0x0duy; 0x82uy; 0xc9uy; 0x80uy; 0x7auy; 0xe2uy; 0x0auy; 0xc5uy; 0xb4uy; 0xdeuy; 0x7cuy; 0x3cuy; 0x79uy; 0x81uy; 0x0euy; 0x28uy; 0x65uy; 0x79uy; 0x67uy; 0x82uy; 0x69uy; 0x44uy; 0x66uy; 0x09uy; 0xf7uy; 0x16uy; 0x1auy; 0xf9uy; 0x7duy; 0x80uy; 0xa1uy; 0x79uy; 0x14uy; 0xa9uy; 0xc8uy; 0x20uy; 0xfbuy; 0xa2uy; 0x46uy; 0xbeuy; 0x08uy; 0x35uy; 0x17uy; 0x58uy; 0xc1uy; 0x1auy; 0xdauy; 0x2auy; 0x6buy; 0x2euy; 0x1euy; 0xe6uy; 0x27uy; 0x55uy; 0x7buy; 0x19uy; 0xe2uy; 0xfbuy; 0x64uy; 0xfcuy; 0x5euy; 0x15uy; 0x54uy; 0x3cuy; 0xe7uy; 0xc2uy; 0x11uy; 0x50uy; 0x30uy; 0xb8uy; 0x72uy; 0x03uy; 0x0buy; 0x1auy; 0x9fuy; 0x86uy; 0x27uy; 0x11uy; 0x5cuy; 0x06uy; 0x2buy; 0xbduy; 0x75uy; 0x1auy; 0x0auy; 0xdauy; 0x01uy; 0xfauy; 0x5cuy; 0x4auy; 0xc1uy; 0x80uy; 0x3auy; 0x6euy; 0x30uy; 0xc8uy; 0x2cuy; 0xebuy; 0x56uy; 0xecuy; 0x89uy; 0xfauy; 0x35uy; 0x7buy; 0xb2uy; 0xf0uy; 0x97uy; 0x08uy; 0x86uy; 0x53uy; 0xbeuy; 0xbduy; 0x40uy; 0x41uy; 0x38uy; 0x1cuy; 0xb4uy; 0x8buy; 0x79uy; 0x2euy; 0x18uy; 0x96uy; 0x94uy; 0xdeuy; 0xe8uy; 0xcauy; 0xe5uy; 0x9fuy; 0x92uy; 0x9fuy; 0x15uy; 0x5duy; 0x56uy; 0x60uy; 0x5cuy; 0x09uy; 0xf9uy; 0x16uy; 0xf4uy; 0x17uy; 0x0fuy; 0xf6uy; 0x4cuy; 0xdauy; 0xe6uy; 0x67uy; 0x89uy; 0x9fuy; 0xcauy; 0x6cuy; 0xe7uy; 0x9buy; 0x04uy; 0x62uy; 0x0euy; 0x26uy; 0xa6uy; 0x52uy; 0xbduy; 0x29uy; 0xffuy; 0xc7uy; 0xa4uy; 0x96uy; 0xe6uy; 0x6auy; 0x02uy; 0xa5uy; 0x2euy; 0x7buy; 0xfeuy; 0x97uy; 0x68uy; 0x3euy; 0x2euy; 0x5fuy; 0x3buy; 0x0fuy; 0x36uy; 0xd6uy; 0x98uy; 0x19uy; 0x59uy; 0x48uy; 0xd2uy; 0xc6uy; 0xe1uy; 0x55uy; 0x1auy; 0x6euy; 0xd6uy; 0xeduy; 0x2cuy; 0xbauy; 0xc3uy; 0x9euy; 0x64uy; 0xc9uy; 0x95uy; 0x86uy; 0x35uy; 0x5euy; 0x3euy; 0x88uy; 0x69uy; 0x99uy; 0x4buy; 0xeeuy; 0xbeuy; 0x9auy; 0x99uy; 0xb5uy; 0x6euy; 0x58uy; 0xaeuy; 0xdduy; 0x22uy; 0xdbuy; 0xdduy; 0x6buy; 0xfcuy; 0xafuy; 0x90uy; 0xa3uy; 0x3duy; 0xa4uy; 0xc1uy; 0x15uy; 0x92uy; 0x18uy; 0x8duy; 0xd2uy; 0x4buy; 0x7buy; 0x06uy; 0xd1uy; 0x37uy; 0xb5uy; 0xe2uy; 0x7cuy; 0x2cuy; 0xf0uy; 0x25uy; 0xe4uy; 0x94uy; 0x2auy; 0xbduy; 0xe3uy; 0x82uy; 0x70uy; 0x78uy; 0xa3uy; 0x82uy; 0x10uy; 0x5auy; 0x90uy; 0xd7uy; 0xa4uy; 0xfauy; 0xafuy; 0x1auy; 0x88uy; 0x59uy; 0xdcuy; 0x74uy; 0x12uy; 0xb4uy; 0x8euy; 0xd7uy; 0x19uy; 0x46uy; 0xf4uy; 0x84uy; 0x69uy; 0x9fuy; 0xbbuy; 0x70uy; 0xa8uy; 0x4cuy; 0x52uy; 0x81uy; 0xa9uy; 0xffuy; 0x76uy; 0x1cuy; 0xaeuy; 0xd8uy; 0x11uy; 0x3duy; 0x7fuy; 0x7duy; 0xc5uy; 0x12uy; 0x59uy; 0x28uy; 0x18uy; 0xc2uy; 0xa2uy; 0xb7uy; 0x1cuy; 0x88uy; 0xf8uy; 0xd6uy; 0x1buy; 0xa6uy; 0x7duy; 0x9euy; 0xdeuy; 0x29uy; 0xf8uy; 0xeduy; 0xffuy; 0xebuy; 0x92uy; 0x24uy; 0x4fuy; 0x05uy; 0xaauy; 0xd9uy; 0x49uy; 0xbauy; 0x87uy; 0x59uy; 0x51uy; 0xc9uy; 0x20uy; 0x5cuy; 0x9buy; 0x74uy; 0xcfuy; 0x03uy; 0xd9uy; 0x2duy; 0x34uy; 0xc7uy; 0x5buy; 0xa5uy; 0x40uy; 0xb2uy; 0x99uy; 0xf5uy; 0xcbuy; 0xb4uy; 0xf6uy; 0xb7uy; 0x72uy; 0x4auy; 0xd6uy; 0xbduy; 0xb0uy; 0xf3uy; 0x93uy; 0xe0uy; 0x1buy; 0xa8uy; 0x04uy; 0x1euy; 0x35uy; 0xd4uy; 0x80uy; 0x20uy; 0xf4uy; 0x9cuy; 0x31uy; 0x6buy; 0x45uy; 0xb9uy; 0x15uy; 0xb0uy; 0x5euy; 0xdduy; 0x0auy; 0x33uy; 0x9cuy; 0x83uy; 0xcduy; 0x58uy; 0x89uy; 0x50uy; 0x56uy; 0xbbuy; 0x81uy; 0x00uy; 0x91uy; 0x32uy; 0xf3uy; 0x1buy; 0x3euy; 0xcfuy; 0x45uy; 0xe1uy; 0xf9uy; 0xe1uy; 0x2cuy; 0x26uy; 0x78uy; 0x93uy; 0x9auy; 0x60uy; 0x46uy; 0xc9uy; 0xb5uy; 0x5euy; 0x6auy; 0x28uy; 0x92uy; 0x87uy; 0x3fuy; 0x63uy; 0x7buy; 0xdbuy; 0xf7uy; 0xd0uy; 0x13uy; 0x9duy; 0x32uy; 0x40uy; 0x5euy; 0xcfuy; 0xfbuy; 0x79uy; 0x68uy; 0x47uy; 0x4cuy; 0xfduy; 0x01uy; 0x17uy; 0xe6uy; 0x97uy; 0x93uy; 0x78uy; 0xbbuy; 0xa6uy; 0x27uy; 0xa3uy; 0xe8uy; 0x1auy; 0xe8uy; 0x94uy; 0x55uy; 0x7duy; 0x08uy; 0xe5uy; 0xdcuy; 0x66uy; 0xa3uy; 0x69uy; 0xc8uy; 0xcauy; 0xc5uy; 0xa1uy; 0x84uy; 0x55uy; 0xdeuy; 0x08uy; 0x91uy; 0x16uy; 0x3auy; 0x0cuy; 0x86uy; 0xabuy; 0x27uy; 0x2buy; 0x64uy; 0x34uy; 0x02uy; 0x6cuy; 0x76uy; 0x8buy; 0xc6uy; 0xafuy; 0xccuy; 0xe1uy; 0xd6uy; 0x8cuy; 0x2auy; 0x18uy; 0x3duy; 0xa6uy; 0x1buy; 0x37uy; 0x75uy; 0x45uy; 0x73uy; 0xc2uy; 0x75uy; 0xd7uy; 0x53uy; 0x78uy; 0x3auy; 0xd6uy; 0xe8uy; 0x29uy; 0xd2uy; 0x4auy; 0xa8uy; 0x1euy; 0x82uy; 0xf6uy; 0xb6uy; 0x81uy; 0xdeuy; 0x21uy; 0xeduy; 0x2buy; 0x56uy; 0xbbuy; 0xf2uy; 0xd0uy; 0x57uy; 0xc1uy; 0x7cuy; 0xd2uy; 0x6auy; 0xd2uy; 0x56uy; 0xf5uy; 0x13uy; 0x5fuy; 0x1cuy; 0x6auy; 0x0buy; 0x74uy; 0xfbuy; 0xe9uy; 0xfeuy; 0x9euy; 0xeauy; 0x95uy; 0xb2uy; 0x46uy; 0xabuy; 0x0auy; 0xfcuy; 0xfduy; 0xf3uy; 0xbbuy; 0x04uy; 0x2buy; 0x76uy; 0x1buy; 0xa4uy; 0x74uy; 0xb0uy; 0xc1uy; 0x78uy; 0xc3uy; 0x69uy; 0xe2uy; 0xb0uy; 0x01uy; 0xe1uy; 0xdeuy; 0x32uy; 0x4cuy; 0x8duy; 0x1auy; 0xb3uy; 0x38uy; 0x08uy; 0xd5uy; 0xfcuy; 0x1fuy; 0xdcuy; 0x0euy; 0x2cuy; 0x9cuy; 0xb1uy; 0xa1uy; 0x63uy; 0x17uy; 0x22uy; 0xf5uy; 0x6cuy; 0x93uy; 0x70uy; 0x74uy; 0x00uy; 0xf8uy; 0x39uy; 0x01uy; 0x94uy; 0xd1uy; 0x32uy; 0x23uy; 0x56uy; 0x5duy; 0xa6uy; 0x02uy; 0x76uy; 0x76uy; 0x93uy; 0xceuy; 0x2fuy; 0x19uy; 0xe9uy; 0x17uy; 0x52uy; 0xaeuy; 0x6euy; 0x2cuy; 0x6duy; 0x61uy; 0x7fuy; 0x3buy; 0xaauy; 0xe0uy; 0x52uy; 0x85uy; 0xc5uy; 0x65uy; 0xc1uy; 0xbbuy; 0x8euy; 0x5buy; 0x21uy; 0xd5uy; 0xc9uy; 0x78uy; 0x83uy; 0x07uy; 0x97uy; 0x4cuy; 0x62uy; 0x61uy; 0x41uy; 0xd4uy; 0xfcuy; 0xc9uy; 0x39uy; 0xe3uy; 0x9buy; 0xd0uy; 0xccuy; 0x75uy; 0xc4uy; 0x97uy; 0xe6uy; 0xdduy; 0x2auy; 0x5fuy; 0xa6uy; 0xe8uy; 0x59uy; 0x6cuy; 0x98uy; 0xb9uy; 0x02uy; 0xe2uy; 0xa2uy; 0xd6uy; 0x68uy; 0xeeuy; 0x3buy; 0x1duy; 0xe3uy; 0x4duy; 0x5buy; 0x30uy; 0xefuy; 0x03uy; 0xf2uy; 0xebuy; 0x18uy; 0x57uy; 0x36uy; 0xe8uy; 0xa1uy; 0xf4uy; 0x47uy; 0xfbuy; 0xcbuy; 0x8fuy; 0xcbuy; 0xc8uy; 0xf3uy; 0x4fuy; 0x74uy; 0x9duy; 0x9duy; 0xb1uy; 0x8duy; 0x14uy; 0x44uy; 0xd9uy; 0x19uy; 0xb4uy; 0x54uy; 0x4fuy; 0x75uy; 0x19uy; 0x09uy; 0xa0uy; 0x75uy; 0xbcuy; 0x3buy; 0x82uy; 0xc6uy; 0x3fuy; 0xb8uy; 0x83uy; 0x19uy; 0x6euy; 0xd6uy; 0x37uy; 0xfeuy; 0x6euy; 0x8auy; 0x4euy; 0xe0uy; 0x4auy; 0xabuy; 0x7buy; 0xc8uy; 0xb4uy; 0x1duy; 0xf4uy; 0xeduy; 0x27uy; 0x03uy; 0x65uy; 0xa2uy; 0xa1uy; 0xaeuy; 0x11uy; 0xe7uy; 0x98uy; 0x78uy; 0x48uy; 0x91uy; 0xd2uy; 0xd2uy; 0xd4uy; 0x23uy; 0x78uy; 0x50uy; 0xb1uy; 0x5buy; 0x85uy; 0x10uy; 0x8duy; 0xcauy; 0x5fuy; 0x0fuy; 0x71uy; 0xaeuy; 0x72uy; 0x9auy; 0xf6uy; 0x25uy; 0x19uy; 0x60uy; 0x06uy; 0xf7uy; 0x10uy; 0x34uy; 0x18uy; 0x0duy; 0xc9uy; 0x9fuy; 0x7buy; 0x0cuy; 0x9buy; 0x8fuy; 0x91uy; 0x1buy; 0x9fuy; 0xcduy; 0x10uy; 0xeeuy; 0x75uy; 0xf9uy; 0x97uy; 0x66uy; 0xfcuy; 0x4duy; 0x33uy; 0x6euy; 0x28uy; 0x2buy; 0x92uy; 0x85uy; 0x4fuy; 0xabuy; 0x43uy; 0x8duy; 0x8fuy; 0x7duy; 0x86uy; 0xa7uy; 0xc7uy; 0xd8uy; 0xd3uy; 0x0buy; 0x8buy; 0x57uy; 0xb6uy; 0x1duy; 0x95uy; 0x0duy; 0xe9uy; 0xbcuy; 0xd9uy; 0x03uy; 0xd9uy; 0x10uy; 0x19uy; 0xc3uy; 0x46uy; 0x63uy; 0x55uy; 0x87uy; 0x61uy; 0x79uy; 0x6cuy; 0x95uy; 0x0euy; 0x9cuy; 0xdduy; 0xcauy; 0xc3uy; 0xf3uy; 0x64uy; 0xf0uy; 0x7duy; 0x76uy; 0xb7uy; 0x53uy; 0x67uy; 0x2buy; 0x1euy; 0x44uy; 0x56uy; 0x81uy; 0xeauy; 0x8fuy; 0x5cuy; 0x42uy; 0x16uy; 0xb8uy; 0x28uy; 0xebuy; 0x1buy; 0x61uy; 0x10uy; 0x1euy; 0xbfuy; 0xecuy; 0xa8uy; ] in
assert_norm (List.Tot.length l = 1933);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) =
1933ul
let output10: (b: B.buffer UInt8.t { B.length b = 1949 /\ B.recallable b }) =
[@inline_let] let l = [ 0x6auy; 0xfcuy; 0x4buy; 0x25uy; 0xdfuy; 0xc0uy; 0xe4uy; 0xe8uy; 0x17uy; 0x4duy; 0x4cuy; 0xc9uy; 0x7euy; 0xdeuy; 0x3auy; 0xccuy; 0x3cuy; 0xbauy; 0x6auy; 0x77uy; 0x47uy; 0xdbuy; 0xe3uy; 0x74uy; 0x7auy; 0x4duy; 0x5fuy; 0x8duy; 0x37uy; 0x55uy; 0x80uy; 0x73uy; 0x90uy; 0x66uy; 0x5duy; 0x3auy; 0x7duy; 0x5duy; 0x86uy; 0x5euy; 0x8duy; 0xfduy; 0x83uy; 0xffuy; 0x4euy; 0x74uy; 0x6fuy; 0xf9uy; 0xe6uy; 0x70uy; 0x17uy; 0x70uy; 0x3euy; 0x96uy; 0xa7uy; 0x7euy; 0xcbuy; 0xabuy; 0x8fuy; 0x58uy; 0x24uy; 0x9buy; 0x01uy; 0xfduy; 0xcbuy; 0xe6uy; 0x4duy; 0x9buy; 0xf0uy; 0x88uy; 0x94uy; 0x57uy; 0x66uy; 0xefuy; 0x72uy; 0x4cuy; 0x42uy; 0x6euy; 0x16uy; 0x19uy; 0x15uy; 0xeauy; 0x70uy; 0x5buy; 0xacuy; 0x13uy; 0xdbuy; 0x9fuy; 0x18uy; 0xe2uy; 0x3cuy; 0x26uy; 0x97uy; 0xbcuy; 0xdcuy; 0x45uy; 0x8cuy; 0x6cuy; 0x24uy; 0x69uy; 0x9cuy; 0xf7uy; 0x65uy; 0x1euy; 0x18uy; 0x59uy; 0x31uy; 0x7cuy; 0xe4uy; 0x73uy; 0xbcuy; 0x39uy; 0x62uy; 0xc6uy; 0x5cuy; 0x9fuy; 0xbfuy; 0xfauy; 0x90uy; 0x03uy; 0xc9uy; 0x72uy; 0x26uy; 0xb6uy; 0x1buy; 0xc2uy; 0xb7uy; 0x3fuy; 0xf2uy; 0x13uy; 0x77uy; 0xf2uy; 0x8duy; 0xb9uy; 0x47uy; 0xd0uy; 0x53uy; 0xdduy; 0xc8uy; 0x91uy; 0x83uy; 0x8buy; 0xb1uy; 0xceuy; 0xa3uy; 0xfeuy; 0xcduy; 0xd9uy; 0xdduy; 0x92uy; 0x7buy; 0xdbuy; 0xb8uy; 0xfbuy; 0xc9uy; 0x2duy; 0x01uy; 0x59uy; 0x39uy; 0x52uy; 0xaduy; 0x1buy; 0xecuy; 0xcfuy; 0xd7uy; 0x70uy; 0x13uy; 0x21uy; 0xf5uy; 0x47uy; 0xaauy; 0x18uy; 0x21uy; 0x5cuy; 0xc9uy; 0x9auy; 0xd2uy; 0x6buy; 0x05uy; 0x9cuy; 0x01uy; 0xa1uy; 0xdauy; 0x35uy; 0x5duy; 0xb3uy; 0x70uy; 0xe6uy; 0xa9uy; 0x80uy; 0x8buy; 0x91uy; 0xb7uy; 0xb3uy; 0x5fuy; 0x24uy; 0x9auy; 0xb7uy; 0xd1uy; 0x6buy; 0xa1uy; 0x1cuy; 0x50uy; 0xbauy; 0x49uy; 0xe0uy; 0xeeuy; 0x2euy; 0x75uy; 0xacuy; 0x69uy; 0xc0uy; 0xebuy; 0x03uy; 0xdduy; 0x19uy; 0xe5uy; 0xf6uy; 0x06uy; 0xdduy; 0xc3uy; 0xd7uy; 0x2buy; 0x07uy; 0x07uy; 0x30uy; 0xa7uy; 0x19uy; 0x0cuy; 0xbfuy; 0xe6uy; 0x18uy; 0xccuy; 0xb1uy; 0x01uy; 0x11uy; 0x85uy; 0x77uy; 0x1duy; 0x96uy; 0xa7uy; 0xa3uy; 0x00uy; 0x84uy; 0x02uy; 0xa2uy; 0x83uy; 0x68uy; 0xdauy; 0x17uy; 0x27uy; 0xc8uy; 0x7fuy; 0x23uy; 0xb7uy; 0xf4uy; 0x13uy; 0x85uy; 0xcfuy; 0xdduy; 0x7auy; 0x7duy; 0x24uy; 0x57uy; 0xfeuy; 0x05uy; 0x93uy; 0xf5uy; 0x74uy; 0xceuy; 0xeduy; 0x0cuy; 0x20uy; 0x98uy; 0x8duy; 0x92uy; 0x30uy; 0xa1uy; 0x29uy; 0x23uy; 0x1auy; 0xa0uy; 0x4fuy; 0x69uy; 0x56uy; 0x4cuy; 0xe1uy; 0xc8uy; 0xceuy; 0xf6uy; 0x9auy; 0x0cuy; 0xa4uy; 0xfauy; 0x04uy; 0xf6uy; 0x62uy; 0x95uy; 0xf2uy; 0xfauy; 0xc7uy; 0x40uy; 0x68uy; 0x40uy; 0x8fuy; 0x41uy; 0xdauy; 0xb4uy; 0x26uy; 0x6fuy; 0x70uy; 0xabuy; 0x40uy; 0x61uy; 0xa4uy; 0x0euy; 0x75uy; 0xfbuy; 0x86uy; 0xebuy; 0x9duy; 0x9auy; 0x1fuy; 0xecuy; 0x76uy; 0x99uy; 0xe7uy; 0xeauy; 0xaauy; 0x1euy; 0x2duy; 0xb5uy; 0xd4uy; 0xa6uy; 0x1auy; 0xb8uy; 0x61uy; 0x0auy; 0x1duy; 0x16uy; 0x5buy; 0x98uy; 0xc2uy; 0x31uy; 0x40uy; 0xe7uy; 0x23uy; 0x1duy; 0x66uy; 0x99uy; 0xc8uy; 0xc0uy; 0xd7uy; 0xceuy; 0xf3uy; 0x57uy; 0x40uy; 0x04uy; 0x3fuy; 0xfcuy; 0xeauy; 0xb3uy; 0xfcuy; 0xd2uy; 0xd3uy; 0x99uy; 0xa4uy; 0x94uy; 0x69uy; 0xa0uy; 0xefuy; 0xd1uy; 0x85uy; 0xb3uy; 0xa6uy; 0xb1uy; 0x28uy; 0xbfuy; 0x94uy; 0x67uy; 0x22uy; 0xc3uy; 0x36uy; 0x46uy; 0xf8uy; 0xd2uy; 0x0fuy; 0x5fuy; 0xf4uy; 0x59uy; 0x80uy; 0xe6uy; 0x2duy; 0x43uy; 0x08uy; 0x7duy; 0x19uy; 0x09uy; 0x97uy; 0xa7uy; 0x4cuy; 0x3duy; 0x8duy; 0xbauy; 0x65uy; 0x62uy; 0xa3uy; 0x71uy; 0x33uy; 0x29uy; 0x62uy; 0xdbuy; 0xc1uy; 0x33uy; 0x34uy; 0x1auy; 0x63uy; 0x33uy; 0x16uy; 0xb6uy; 0x64uy; 0x7euy; 0xabuy; 0x33uy; 0xf0uy; 0xe6uy; 0x26uy; 0x68uy; 0xbauy; 0x1duy; 0x2euy; 0x38uy; 0x08uy; 0xe6uy; 0x02uy; 0xd3uy; 0x25uy; 0x2cuy; 0x47uy; 0x23uy; 0x58uy; 0x34uy; 0x0fuy; 0x9duy; 0x63uy; 0x4fuy; 0x63uy; 0xbbuy; 0x7fuy; 0x3buy; 0x34uy; 0x38uy; 0xa7uy; 0xb5uy; 0x8duy; 0x65uy; 0xd9uy; 0x9fuy; 0x79uy; 0x55uy; 0x3euy; 0x4duy; 0xe7uy; 0x73uy; 0xd8uy; 0xf6uy; 0x98uy; 0x97uy; 0x84uy; 0x60uy; 0x9cuy; 0xc8uy; 0xa9uy; 0x3cuy; 0xf6uy; 0xdcuy; 0x12uy; 0x5cuy; 0xe1uy; 0xbbuy; 0x0buy; 0x8buy; 0x98uy; 0x9cuy; 0x9duy; 0x26uy; 0x7cuy; 0x4auy; 0xe6uy; 0x46uy; 0x36uy; 0x58uy; 0x21uy; 0x4auy; 0xeeuy; 0xcauy; 0xd7uy; 0x3buy; 0xc2uy; 0x6cuy; 0x49uy; 0x2fuy; 0xe5uy; 0xd5uy; 0x03uy; 0x59uy; 0x84uy; 0x53uy; 0xcbuy; 0xfeuy; 0x92uy; 0x71uy; 0x2euy; 0x7cuy; 0x21uy; 0xccuy; 0x99uy; 0x85uy; 0x7fuy; 0xb8uy; 0x74uy; 0x90uy; 0x13uy; 0x42uy; 0x3fuy; 0xe0uy; 0x6buy; 0x1duy; 0xf2uy; 0x4duy; 0x54uy; 0xd4uy; 0xfcuy; 0x3auy; 0x05uy; 0xe6uy; 0x74uy; 0xafuy; 0xa6uy; 0xa0uy; 0x2auy; 0x20uy; 0x23uy; 0x5duy; 0x34uy; 0x5cuy; 0xd9uy; 0x3euy; 0x4euy; 0xfauy; 0x93uy; 0xe7uy; 0xaauy; 0xe9uy; 0x6fuy; 0x08uy; 0x43uy; 0x67uy; 0x41uy; 0xc5uy; 0xaduy; 0xfbuy; 0x31uy; 0x95uy; 0x82uy; 0x73uy; 0x32uy; 0xd8uy; 0xa6uy; 0xa3uy; 0xeduy; 0x0euy; 0x2duy; 0xf6uy; 0x5fuy; 0xfduy; 0x80uy; 0xa6uy; 0x7auy; 0xe0uy; 0xdfuy; 0x78uy; 0x15uy; 0x29uy; 0x74uy; 0x33uy; 0xd0uy; 0x9euy; 0x83uy; 0x86uy; 0x72uy; 0x22uy; 0x57uy; 0x29uy; 0xb9uy; 0x9euy; 0x5duy; 0xd3uy; 0x1auy; 0xb5uy; 0x96uy; 0x72uy; 0x41uy; 0x3duy; 0xf1uy; 0x64uy; 0x43uy; 0x67uy; 0xeeuy; 0xaauy; 0x5cuy; 0xd3uy; 0x9auy; 0x96uy; 0x13uy; 0x11uy; 0x5duy; 0xf3uy; 0x0cuy; 0x87uy; 0x82uy; 0x1euy; 0x41uy; 0x9euy; 0xd0uy; 0x27uy; 0xd7uy; 0x54uy; 0x3buy; 0x67uy; 0x73uy; 0x09uy; 0x91uy; 0xe9uy; 0xd5uy; 0x36uy; 0xa7uy; 0xb5uy; 0x55uy; 0xe4uy; 0xf3uy; 0x21uy; 0x51uy; 0x49uy; 0x22uy; 0x07uy; 0x55uy; 0x4fuy; 0x44uy; 0x4buy; 0xd2uy; 0x15uy; 0x93uy; 0x17uy; 0x2auy; 0xfauy; 0x4duy; 0x4auy; 0x57uy; 0xdbuy; 0x4cuy; 0xa6uy; 0xebuy; 0xecuy; 0x53uy; 0x25uy; 0x6cuy; 0x21uy; 0xeduy; 0x00uy; 0x4cuy; 0x3buy; 0xcauy; 0x14uy; 0x57uy; 0xa9uy; 0xd6uy; 0x6auy; 0xcduy; 0x8duy; 0x5euy; 0x74uy; 0xacuy; 0x72uy; 0xc1uy; 0x97uy; 0xe5uy; 0x1buy; 0x45uy; 0x4euy; 0xdauy; 0xfcuy; 0xccuy; 0x40uy; 0xe8uy; 0x48uy; 0x88uy; 0x0buy; 0xa3uy; 0xe3uy; 0x8duy; 0x83uy; 0x42uy; 0xc3uy; 0x23uy; 0xfduy; 0x68uy; 0xb5uy; 0x8euy; 0xf1uy; 0x9duy; 0x63uy; 0x77uy; 0xe9uy; 0xa3uy; 0x8euy; 0x8cuy; 0x26uy; 0x6buy; 0xbduy; 0x72uy; 0x73uy; 0x35uy; 0x0cuy; 0x03uy; 0xf8uy; 0x43uy; 0x78uy; 0x52uy; 0x71uy; 0x15uy; 0x1fuy; 0x71uy; 0x5duy; 0x6euy; 0xeduy; 0xb9uy; 0xccuy; 0x86uy; 0x30uy; 0xdbuy; 0x2buy; 0xd3uy; 0x82uy; 0x88uy; 0x23uy; 0x71uy; 0x90uy; 0x53uy; 0x5cuy; 0xa9uy; 0x2fuy; 0x76uy; 0x01uy; 0xb7uy; 0x9auy; 0xfeuy; 0x43uy; 0x55uy; 0xa3uy; 0x04uy; 0x9buy; 0x0euy; 0xe4uy; 0x59uy; 0xdfuy; 0xc9uy; 0xe9uy; 0xb1uy; 0xeauy; 0x29uy; 0x28uy; 0x3cuy; 0x5cuy; 0xaeuy; 0x72uy; 0x84uy; 0xb6uy; 0xc6uy; 0xebuy; 0x0cuy; 0x27uy; 0x07uy; 0x74uy; 0x90uy; 0x0duy; 0x31uy; 0xb0uy; 0x00uy; 0x77uy; 0xe9uy; 0x40uy; 0x70uy; 0x6fuy; 0x68uy; 0xa7uy; 0xfduy; 0x06uy; 0xecuy; 0x4buy; 0xc0uy; 0xb7uy; 0xacuy; 0xbcuy; 0x33uy; 0xb7uy; 0x6duy; 0x0auy; 0xbduy; 0x12uy; 0x1buy; 0x59uy; 0xcbuy; 0xdduy; 0x32uy; 0xf5uy; 0x1duy; 0x94uy; 0x57uy; 0x76uy; 0x9euy; 0x0cuy; 0x18uy; 0x98uy; 0x71uy; 0xd7uy; 0x2auy; 0xdbuy; 0x0buy; 0x7buy; 0xa7uy; 0x71uy; 0xb7uy; 0x67uy; 0x81uy; 0x23uy; 0x96uy; 0xaeuy; 0xb9uy; 0x7euy; 0x32uy; 0x43uy; 0x92uy; 0x8auy; 0x19uy; 0xa0uy; 0xc4uy; 0xd4uy; 0x3buy; 0x57uy; 0xf9uy; 0x4auy; 0x2cuy; 0xfbuy; 0x51uy; 0x46uy; 0xbbuy; 0xcbuy; 0x5duy; 0xb3uy; 0xefuy; 0x13uy; 0x93uy; 0x6euy; 0x68uy; 0x42uy; 0x54uy; 0x57uy; 0xd3uy; 0x6auy; 0x3auy; 0x8fuy; 0x9duy; 0x66uy; 0xbfuy; 0xbduy; 0x36uy; 0x23uy; 0xf5uy; 0x93uy; 0x83uy; 0x7buy; 0x9cuy; 0xc0uy; 0xdduy; 0xc5uy; 0x49uy; 0xc0uy; 0x64uy; 0xeduy; 0x07uy; 0x12uy; 0xb3uy; 0xe6uy; 0xe4uy; 0xe5uy; 0x38uy; 0x95uy; 0x23uy; 0xb1uy; 0xa0uy; 0x3buy; 0x1auy; 0x61uy; 0xdauy; 0x17uy; 0xacuy; 0xc3uy; 0x58uy; 0xdduy; 0x74uy; 0x64uy; 0x22uy; 0x11uy; 0xe8uy; 0x32uy; 0x1duy; 0x16uy; 0x93uy; 0x85uy; 0x99uy; 0xa5uy; 0x9cuy; 0x34uy; 0x55uy; 0xb1uy; 0xe9uy; 0x20uy; 0x72uy; 0xc9uy; 0x28uy; 0x7buy; 0x79uy; 0x00uy; 0xa1uy; 0xa6uy; 0xa3uy; 0x27uy; 0x40uy; 0x18uy; 0x8auy; 0x54uy; 0xe0uy; 0xccuy; 0xe8uy; 0x4euy; 0x8euy; 0x43uy; 0x96uy; 0xe7uy; 0x3fuy; 0xc8uy; 0xe9uy; 0xb2uy; 0xf9uy; 0xc9uy; 0xdauy; 0x04uy; 0x71uy; 0x50uy; 0x47uy; 0xe4uy; 0xaauy; 0xceuy; 0xa2uy; 0x30uy; 0xc8uy; 0xe4uy; 0xacuy; 0xc7uy; 0x0duy; 0x06uy; 0x2euy; 0xe6uy; 0xe8uy; 0x80uy; 0x36uy; 0x29uy; 0x9euy; 0x01uy; 0xb8uy; 0xc3uy; 0xf0uy; 0xa0uy; 0x5duy; 0x7auy; 0xcauy; 0x4duy; 0xa0uy; 0x57uy; 0xbduy; 0x2auy; 0x45uy; 0xa7uy; 0x7fuy; 0x9cuy; 0x93uy; 0x07uy; 0x8fuy; 0x35uy; 0x67uy; 0x92uy; 0xe3uy; 0xe9uy; 0x7fuy; 0xa8uy; 0x61uy; 0x43uy; 0x9euy; 0x25uy; 0x4fuy; 0x33uy; 0x76uy; 0x13uy; 0x6euy; 0x12uy; 0xb9uy; 0xdduy; 0xa4uy; 0x7cuy; 0x08uy; 0x9fuy; 0x7cuy; 0xe7uy; 0x0auy; 0x8duy; 0x84uy; 0x06uy; 0xa4uy; 0x33uy; 0x17uy; 0x34uy; 0x5euy; 0x10uy; 0x7cuy; 0xc0uy; 0xa8uy; 0x3duy; 0x1fuy; 0x42uy; 0x20uy; 0x51uy; 0x65uy; 0x5duy; 0x09uy; 0xc3uy; 0xaauy; 0xc0uy; 0xc8uy; 0x0duy; 0xf0uy; 0x79uy; 0xbcuy; 0x20uy; 0x1buy; 0x95uy; 0xe7uy; 0x06uy; 0x7duy; 0x47uy; 0x20uy; 0x03uy; 0x1auy; 0x74uy; 0xdduy; 0xe2uy; 0xd4uy; 0xaeuy; 0x38uy; 0x71uy; 0x9buy; 0xf5uy; 0x80uy; 0xecuy; 0x08uy; 0x4euy; 0x56uy; 0xbauy; 0x76uy; 0x12uy; 0x1auy; 0xdfuy; 0x48uy; 0xf3uy; 0xaeuy; 0xb3uy; 0xe6uy; 0xe6uy; 0xbeuy; 0xc0uy; 0x91uy; 0x2euy; 0x01uy; 0xb3uy; 0x01uy; 0x86uy; 0xa2uy; 0xb9uy; 0x52uy; 0xd1uy; 0x21uy; 0xaeuy; 0xd4uy; 0x97uy; 0x1duy; 0xefuy; 0x41uy; 0x12uy; 0x95uy; 0x3duy; 0x48uy; 0x45uy; 0x1cuy; 0x56uy; 0x32uy; 0x8fuy; 0xb8uy; 0x43uy; 0xbbuy; 0x19uy; 0xf3uy; 0xcauy; 0xe9uy; 0xebuy; 0x6duy; 0x84uy; 0xbeuy; 0x86uy; 0x06uy; 0xe2uy; 0x36uy; 0xb2uy; 0x62uy; 0x9duy; 0xd3uy; 0x4cuy; 0x48uy; 0x18uy; 0x54uy; 0x13uy; 0x4euy; 0xcfuy; 0xfduy; 0xbauy; 0x84uy; 0xb9uy; 0x30uy; 0x53uy; 0xcfuy; 0xfbuy; 0xb9uy; 0x29uy; 0x8fuy; 0xdcuy; 0x9fuy; 0xefuy; 0x60uy; 0x0buy; 0x64uy; 0xf6uy; 0x8buy; 0xeeuy; 0xa6uy; 0x91uy; 0xc2uy; 0x41uy; 0x6cuy; 0xf6uy; 0xfauy; 0x79uy; 0x67uy; 0x4buy; 0xc1uy; 0x3fuy; 0xafuy; 0x09uy; 0x81uy; 0xd4uy; 0x5duy; 0xcbuy; 0x09uy; 0xdfuy; 0x36uy; 0x31uy; 0xc0uy; 0x14uy; 0x3cuy; 0x7cuy; 0x0euy; 0x65uy; 0x95uy; 0x99uy; 0x6duy; 0xa3uy; 0xf4uy; 0xd7uy; 0x38uy; 0xeeuy; 0x1auy; 0x2buy; 0x37uy; 0xe2uy; 0xa4uy; 0x3buy; 0x4buy; 0xd0uy; 0x65uy; 0xcauy; 0xf8uy; 0xc3uy; 0xe8uy; 0x15uy; 0x20uy; 0xefuy; 0xf2uy; 0x00uy; 0xfduy; 0x01uy; 0x09uy; 0xc5uy; 0xc8uy; 0x17uy; 0x04uy; 0x93uy; 0xd0uy; 0x93uy; 0x03uy; 0x55uy; 0xc5uy; 0xfeuy; 0x32uy; 0xa3uy; 0x3euy; 0x28uy; 0x2duy; 0x3buy; 0x93uy; 0x8auy; 0xccuy; 0x07uy; 0x72uy; 0x80uy; 0x8buy; 0x74uy; 0x16uy; 0x24uy; 0xbbuy; 0xdauy; 0x94uy; 0x39uy; 0x30uy; 0x8fuy; 0xb1uy; 0xcduy; 0x4auy; 0x90uy; 0x92uy; 0x7cuy; 0x14uy; 0x8fuy; 0x95uy; 0x4euy; 0xacuy; 0x9buy; 0xd8uy; 0x8fuy; 0x1auy; 0x87uy; 0xa4uy; 0x32uy; 0x27uy; 0x8auy; 0xbauy; 0xf7uy; 0x41uy; 0xcfuy; 0x84uy; 0x37uy; 0x19uy; 0xe6uy; 0x06uy; 0xf5uy; 0x0euy; 0xcfuy; 0x36uy; 0xf5uy; 0x9euy; 0x6cuy; 0xdeuy; 0xbcuy; 0xffuy; 0x64uy; 0x7euy; 0x4euy; 0x59uy; 0x57uy; 0x48uy; 0xfeuy; 0x14uy; 0xf7uy; 0x9cuy; 0x93uy; 0x5duy; 0x15uy; 0xaduy; 0xccuy; 0x11uy; 0xb1uy; 0x17uy; 0x18uy; 0xb2uy; 0x7euy; 0xccuy; 0xabuy; 0xe9uy; 0xceuy; 0x7duy; 0x77uy; 0x5buy; 0x51uy; 0x1buy; 0x1euy; 0x20uy; 0xa8uy; 0x32uy; 0x06uy; 0x0euy; 0x75uy; 0x93uy; 0xacuy; 0xdbuy; 0x35uy; 0x37uy; 0x1fuy; 0xe9uy; 0x19uy; 0x1duy; 0xb4uy; 0x71uy; 0x97uy; 0xd6uy; 0x4euy; 0x2cuy; 0x08uy; 0xa5uy; 0x13uy; 0xf9uy; 0x0euy; 0x7euy; 0x78uy; 0x6euy; 0x14uy; 0xe0uy; 0xa9uy; 0xb9uy; 0x96uy; 0x4cuy; 0x80uy; 0x82uy; 0xbauy; 0x17uy; 0xb3uy; 0x9duy; 0x69uy; 0xb0uy; 0x84uy; 0x46uy; 0xffuy; 0xf9uy; 0x52uy; 0x79uy; 0x94uy; 0x58uy; 0x3auy; 0x62uy; 0x90uy; 0x15uy; 0x35uy; 0x71uy; 0x10uy; 0x37uy; 0xeduy; 0xa1uy; 0x8euy; 0x53uy; 0x6euy; 0xf4uy; 0x26uy; 0x57uy; 0x93uy; 0x15uy; 0x93uy; 0xf6uy; 0x81uy; 0x2cuy; 0x5auy; 0x10uy; 0xdauy; 0x92uy; 0xaduy; 0x2fuy; 0xdbuy; 0x28uy; 0x31uy; 0x2duy; 0x55uy; 0x04uy; 0xd2uy; 0x06uy; 0x28uy; 0x8cuy; 0x1euy; 0xdcuy; 0xeauy; 0x54uy; 0xacuy; 0xffuy; 0xb7uy; 0x6cuy; 0x30uy; 0x15uy; 0xd4uy; 0xb4uy; 0x0duy; 0x00uy; 0x93uy; 0x57uy; 0xdduy; 0xd2uy; 0x07uy; 0x07uy; 0x06uy; 0xd9uy; 0x43uy; 0x9buy; 0xcduy; 0x3auy; 0xf4uy; 0x7duy; 0x4cuy; 0x36uy; 0x5duy; 0x23uy; 0xa2uy; 0xccuy; 0x57uy; 0x40uy; 0x91uy; 0xe9uy; 0x2cuy; 0x2fuy; 0x2cuy; 0xd5uy; 0x30uy; 0x9buy; 0x17uy; 0xb0uy; 0xc9uy; 0xf7uy; 0xa7uy; 0x2fuy; 0xd1uy; 0x93uy; 0x20uy; 0x6buy; 0xc6uy; 0xc1uy; 0xe4uy; 0x6fuy; 0xcbuy; 0xd1uy; 0xe7uy; 0x09uy; 0x0fuy; 0x9euy; 0xdcuy; 0xaauy; 0x9fuy; 0x2fuy; 0xdfuy; 0x56uy; 0x9fuy; 0xd4uy; 0x33uy; 0x04uy; 0xafuy; 0xd3uy; 0x6cuy; 0x58uy; 0x61uy; 0xf0uy; 0x30uy; 0xecuy; 0xf2uy; 0x7fuy; 0xf2uy; 0x9cuy; 0xdfuy; 0x39uy; 0xbbuy; 0x6fuy; 0xa2uy; 0x8cuy; 0x7euy; 0xc4uy; 0x22uy; 0x51uy; 0x71uy; 0xc0uy; 0x4duy; 0x14uy; 0x1auy; 0xc4uy; 0xcduy; 0x04uy; 0xd9uy; 0x87uy; 0x08uy; 0x50uy; 0x05uy; 0xccuy; 0xafuy; 0xf6uy; 0xf0uy; 0x8fuy; 0x92uy; 0x54uy; 0x58uy; 0xc2uy; 0xc7uy; 0x09uy; 0x7auy; 0x59uy; 0x02uy; 0x05uy; 0xe8uy; 0xb0uy; 0x86uy; 0xd9uy; 0xbfuy; 0x7buy; 0x35uy; 0x51uy; 0x4duy; 0xafuy; 0x08uy; 0x97uy; 0x2cuy; 0x65uy; 0xdauy; 0x2auy; 0x71uy; 0x3auy; 0xa8uy; 0x51uy; 0xccuy; 0xf2uy; 0x73uy; 0x27uy; 0xc3uy; 0xfduy; 0x62uy; 0xcfuy; 0xe3uy; 0xb2uy; 0xcauy; 0xcbuy; 0xbeuy; 0x1auy; 0x0auy; 0xa1uy; 0x34uy; 0x7buy; 0x77uy; 0xc4uy; 0x62uy; 0x68uy; 0x78uy; 0x5fuy; 0x94uy; 0x07uy; 0x04uy; 0x65uy; 0x16uy; 0x4buy; 0x61uy; 0xcbuy; 0xffuy; 0x75uy; 0x26uy; 0x50uy; 0x66uy; 0x1fuy; 0x6euy; 0x93uy; 0xf8uy; 0xc5uy; 0x51uy; 0xebuy; 0xa4uy; 0x4auy; 0x48uy; 0x68uy; 0x6buy; 0xe2uy; 0x5euy; 0x44uy; 0xb2uy; 0x50uy; 0x2cuy; 0x6cuy; 0xaeuy; 0x79uy; 0x4euy; 0x66uy; 0x35uy; 0x81uy; 0x50uy; 0xacuy; 0xbcuy; 0x3fuy; 0xb1uy; 0x0cuy; 0xf3uy; 0x05uy; 0x3cuy; 0x4auy; 0xa3uy; 0x6cuy; 0x2auy; 0x79uy; 0xb4uy; 0xb7uy; 0xabuy; 0xcauy; 0xc7uy; 0x9buy; 0x8euy; 0xcduy; 0x5fuy; 0x11uy; 0x03uy; 0xcbuy; 0x30uy; 0xa3uy; 0xabuy; 0xdauy; 0xfeuy; 0x64uy; 0xb9uy; 0xbbuy; 0xd8uy; 0x5euy; 0x3auy; 0x1auy; 0x56uy; 0xe5uy; 0x05uy; 0x48uy; 0x90uy; 0x1euy; 0x61uy; 0x69uy; 0x1buy; 0x22uy; 0xe6uy; 0x1auy; 0x3cuy; 0x75uy; 0xaduy; 0x1fuy; 0x37uy; 0x28uy; 0xdcuy; 0xe4uy; 0x6duy; 0xbduy; 0x42uy; 0xdcuy; 0xd3uy; 0xc8uy; 0xb6uy; 0x1cuy; 0x48uy; 0xfeuy; 0x94uy; 0x77uy; 0x7fuy; 0xbduy; 0x62uy; 0xacuy; 0xa3uy; 0x47uy; 0x27uy; 0xcfuy; 0x5fuy; 0xd9uy; 0xdbuy; 0xafuy; 0xecuy; 0xf7uy; 0x5euy; 0xc1uy; 0xb0uy; 0x9duy; 0x01uy; 0x26uy; 0x99uy; 0x7euy; 0x8fuy; 0x03uy; 0x70uy; 0xb5uy; 0x42uy; 0xbeuy; 0x67uy; 0x28uy; 0x1buy; 0x7cuy; 0xbduy; 0x61uy; 0x21uy; 0x97uy; 0xccuy; 0x5cuy; 0xe1uy; 0x97uy; 0x8fuy; 0x8duy; 0xdeuy; 0x2buy; 0xaauy; 0xa7uy; 0x71uy; 0x1duy; 0x1euy; 0x02uy; 0x73uy; 0x70uy; 0x58uy; 0x32uy; 0x5buy; 0x1duy; 0x67uy; 0x3duy; 0xe0uy; 0x74uy; 0x4fuy; 0x03uy; 0xf2uy; 0x70uy; 0x51uy; 0x79uy; 0xf1uy; 0x61uy; 0x70uy; 0x15uy; 0x74uy; 0x9duy; 0x23uy; 0x89uy; 0xdeuy; 0xacuy; 0xfduy; 0xdeuy; 0xd0uy; 0x1fuy; 0xc3uy; 0x87uy; 0x44uy; 0x35uy; 0x4buy; 0xe5uy; 0xb0uy; 0x60uy; 0xc5uy; 0x22uy; 0xe4uy; 0x9euy; 0xcauy; 0xebuy; 0xd5uy; 0x3auy; 0x09uy; 0x45uy; 0xa4uy; 0xdbuy; 0xfauy; 0x3fuy; 0xebuy; 0x1buy; 0xc7uy; 0xc8uy; 0x14uy; 0x99uy; 0x51uy; 0x92uy; 0x10uy; 0xeduy; 0xeduy; 0x28uy; 0xe0uy; 0xa1uy; 0xf8uy; 0x26uy; 0xcfuy; 0xcduy; 0xcbuy; 0x63uy; 0xa1uy; 0x3buy; 0xe3uy; 0xdfuy; 0x7euy; 0xfeuy; 0xa6uy; 0xf0uy; 0x81uy; 0x9auy; 0xbfuy; 0x55uy; 0xdeuy; 0x54uy; 0xd5uy; 0x56uy; 0x60uy; 0x98uy; 0x10uy; 0x68uy; 0xf4uy; 0x38uy; 0x96uy; 0x8euy; 0x6fuy; 0x1duy; 0x44uy; 0x7fuy; 0xd6uy; 0x2fuy; 0xfeuy; 0x55uy; 0xfbuy; 0x0cuy; 0x7euy; 0x67uy; 0xe2uy; 0x61uy; 0x44uy; 0xeduy; 0xf2uy; 0x35uy; 0x30uy; 0x5duy; 0xe9uy; 0xc7uy; 0xd6uy; 0x6duy; 0xe0uy; 0xa0uy; 0xeduy; 0xf3uy; 0xfcuy; 0xd8uy; 0x3euy; 0x0auy; 0x7buy; 0xcduy; 0xafuy; 0x65uy; 0x68uy; 0x18uy; 0xc0uy; 0xecuy; 0x04uy; 0x1cuy; 0x74uy; 0x6duy; 0xe2uy; 0x6euy; 0x79uy; 0xd4uy; 0x11uy; 0x2buy; 0x62uy; 0xd5uy; 0x27uy; 0xaduy; 0x4fuy; 0x01uy; 0x59uy; 0x73uy; 0xccuy; 0x6auy; 0x53uy; 0xfbuy; 0x2duy; 0xd5uy; 0x4euy; 0x99uy; 0x21uy; 0x65uy; 0x4duy; 0xf5uy; 0x82uy; 0xf7uy; 0xd8uy; 0x42uy; 0xceuy; 0x6fuy; 0x3duy; 0x36uy; 0x47uy; 0xf1uy; 0x05uy; 0x16uy; 0xe8uy; 0x1buy; 0x6auy; 0x8fuy; 0x93uy; 0xf2uy; 0x8fuy; 0x37uy; 0x40uy; 0x12uy; 0x28uy; 0xa3uy; 0xe6uy; 0xb9uy; 0x17uy; 0x4auy; 0x1fuy; 0xb1uy; 0xd1uy; 0x66uy; 0x69uy; 0x86uy; 0xc4uy; 0xfcuy; 0x97uy; 0xaeuy; 0x3fuy; 0x8fuy; 0x1euy; 0x2buy; 0xdfuy; 0xcduy; 0xf9uy; 0x3cuy; ] in
assert_norm (List.Tot.length l = 1949);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let output10_len: (x:UInt32.t { UInt32.v x = B.length output10 }) =
1949ul
let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) =
[@inline_let] let l = [ 0xb3uy; 0x35uy; 0x50uy; 0x03uy; 0x54uy; 0x2euy; 0x40uy; 0x5euy; 0x8fuy; 0x59uy; 0x8euy; 0xc5uy; 0x90uy; 0xd5uy; 0x27uy; 0x2duy; 0xbauy; 0x29uy; 0x2euy; 0xcbuy; 0x1buy; 0x70uy; 0x44uy; 0x1euy; 0x65uy; 0x91uy; 0x6euy; 0x2auy; 0x79uy; 0x22uy; 0xdauy; 0x64uy; ] in
assert_norm (List.Tot.length l = 32);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) =
32ul
let nonce11: (b: B.buffer UInt8.t { B.length b = 12 /\ B.recallable b }) =
[@inline_let] let l = [ 0x00uy; 0x00uy; 0x00uy; 0x00uy; 0x05uy; 0xa3uy; 0x93uy; 0xeduy; 0x30uy; 0xc5uy; 0xa2uy; 0x06uy; ] in
assert_norm (List.Tot.length l = 12);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let nonce11_len: (x:UInt32.t { UInt32.v x = B.length nonce11 }) =
12ul
let aad11: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) =
[@inline_let] let l = [ 0xb1uy; 0x69uy; 0x83uy; 0x87uy; 0x30uy; 0xaauy; 0x5duy; 0xb8uy; 0x77uy; 0xe8uy; 0x21uy; 0xffuy; 0x06uy; 0x59uy; 0x35uy; 0xceuy; 0x75uy; 0xfeuy; 0x38uy; 0xefuy; 0xb8uy; 0x91uy; 0x43uy; 0x8cuy; 0xcfuy; 0x70uy; 0xdduy; 0x0auy; 0x68uy; 0xbfuy; 0xd4uy; 0xbcuy; 0x16uy; 0x76uy; 0x99uy; 0x36uy; 0x1euy; 0x58uy; 0x79uy; 0x5euy; 0xd4uy; 0x29uy; 0xf7uy; 0x33uy; 0x93uy; 0x48uy; 0xdbuy; 0x5fuy; 0x01uy; 0xaeuy; 0x9cuy; 0xb6uy; 0xe4uy; 0x88uy; 0x6duy; 0x2buy; 0x76uy; 0x75uy; 0xe0uy; 0xf3uy; 0x74uy; 0xe2uy; 0xc9uy; ] in
assert_norm (List.Tot.length l = 63);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let aad11_len: (x:UInt32.t { UInt32.v x = B.length aad11 }) =
63ul
let input11: (b: B.buffer UInt8.t { B.length b = 2011 /\ B.recallable b /\ B.disjoint b aad11 }) =
B.recall aad11;[@inline_let] let l = [ 0x74uy; 0xa6uy; 0x3euy; 0xe4uy; 0xb1uy; 0xcbuy; 0xafuy; 0xb0uy; 0x40uy; 0xe5uy; 0x0fuy; 0x9euy; 0xf1uy; 0xf2uy; 0x89uy; 0xb5uy; 0x42uy; 0x34uy; 0x8auy; 0xa1uy; 0x03uy; 0xb7uy; 0xe9uy; 0x57uy; 0x46uy; 0xbeuy; 0x20uy; 0xe4uy; 0x6euy; 0xb0uy; 0xebuy; 0xffuy; 0xeauy; 0x07uy; 0x7euy; 0xefuy; 0xe2uy; 0x55uy; 0x9fuy; 0xe5uy; 0x78uy; 0x3auy; 0xb7uy; 0x83uy; 0xc2uy; 0x18uy; 0x40uy; 0x7buy; 0xebuy; 0xcduy; 0x81uy; 0xfbuy; 0x90uy; 0x12uy; 0x9euy; 0x46uy; 0xa9uy; 0xd6uy; 0x4auy; 0xbauy; 0xb0uy; 0x62uy; 0xdbuy; 0x6buy; 0x99uy; 0xc4uy; 0xdbuy; 0x54uy; 0x4buy; 0xb8uy; 0xa5uy; 0x71uy; 0xcbuy; 0xcduy; 0x63uy; 0x32uy; 0x55uy; 0xfbuy; 0x31uy; 0xf0uy; 0x38uy; 0xf5uy; 0xbeuy; 0x78uy; 0xe4uy; 0x45uy; 0xceuy; 0x1buy; 0x6auy; 0x5buy; 0x0euy; 0xf4uy; 0x16uy; 0xe4uy; 0xb1uy; 0x3duy; 0xf6uy; 0x63uy; 0x7buy; 0xa7uy; 0x0cuy; 0xdeuy; 0x6fuy; 0x8fuy; 0x74uy; 0xdfuy; 0xe0uy; 0x1euy; 0x9duy; 0xceuy; 0x8fuy; 0x24uy; 0xefuy; 0x23uy; 0x35uy; 0x33uy; 0x7buy; 0x83uy; 0x34uy; 0x23uy; 0x58uy; 0x74uy; 0x14uy; 0x77uy; 0x1fuy; 0xc2uy; 0x4fuy; 0x4euy; 0xc6uy; 0x89uy; 0xf9uy; 0x52uy; 0x09uy; 0x37uy; 0x64uy; 0x14uy; 0xc4uy; 0x01uy; 0x6buy; 0x9duy; 0x77uy; 0xe8uy; 0x90uy; 0x5duy; 0xa8uy; 0x4auy; 0x2auy; 0xefuy; 0x5cuy; 0x7fuy; 0xebuy; 0xbbuy; 0xb2uy; 0xc6uy; 0x93uy; 0x99uy; 0x66uy; 0xdcuy; 0x7fuy; 0xd4uy; 0x9euy; 0x2auy; 0xcauy; 0x8duy; 0xdbuy; 0xe7uy; 0x20uy; 0xcfuy; 0xe4uy; 0x73uy; 0xaeuy; 0x49uy; 0x7duy; 0x64uy; 0x0fuy; 0x0euy; 0x28uy; 0x46uy; 0xa9uy; 0xa8uy; 0x32uy; 0xe4uy; 0x0euy; 0xf6uy; 0x51uy; 0x53uy; 0xb8uy; 0x3cuy; 0xb1uy; 0xffuy; 0xa3uy; 0x33uy; 0x41uy; 0x75uy; 0xffuy; 0xf1uy; 0x6fuy; 0xf1uy; 0xfbuy; 0xbbuy; 0x83uy; 0x7fuy; 0x06uy; 0x9buy; 0xe7uy; 0x1buy; 0x0auy; 0xe0uy; 0x5cuy; 0x33uy; 0x60uy; 0x5buy; 0xdbuy; 0x5buy; 0xeduy; 0xfeuy; 0xa5uy; 0x16uy; 0x19uy; 0x72uy; 0xa3uy; 0x64uy; 0x23uy; 0x00uy; 0x02uy; 0xc7uy; 0xf3uy; 0x6auy; 0x81uy; 0x3euy; 0x44uy; 0x1duy; 0x79uy; 0x15uy; 0x5fuy; 0x9auy; 0xdeuy; 0xe2uy; 0xfduy; 0x1buy; 0x73uy; 0xc1uy; 0xbcuy; 0x23uy; 0xbauy; 0x31uy; 0xd2uy; 0x50uy; 0xd5uy; 0xaduy; 0x7fuy; 0x74uy; 0xa7uy; 0xc9uy; 0xf8uy; 0x3euy; 0x2buy; 0x26uy; 0x10uy; 0xf6uy; 0x03uy; 0x36uy; 0x74uy; 0xe4uy; 0x0euy; 0x6auy; 0x72uy; 0xb7uy; 0x73uy; 0x0auy; 0x42uy; 0x28uy; 0xc2uy; 0xaduy; 0x5euy; 0x03uy; 0xbeuy; 0xb8uy; 0x0buy; 0xa8uy; 0x5buy; 0xd4uy; 0xb8uy; 0xbauy; 0x52uy; 0x89uy; 0xb1uy; 0x9buy; 0xc1uy; 0xc3uy; 0x65uy; 0x87uy; 0xeduy; 0xa5uy; 0xf4uy; 0x86uy; 0xfduy; 0x41uy; 0x80uy; 0x91uy; 0x27uy; 0x59uy; 0x53uy; 0x67uy; 0x15uy; 0x78uy; 0x54uy; 0x8buy; 0x2duy; 0x3duy; 0xc7uy; 0xffuy; 0x02uy; 0x92uy; 0x07uy; 0x5fuy; 0x7auy; 0x4buy; 0x60uy; 0x59uy; 0x3cuy; 0x6fuy; 0x5cuy; 0xd8uy; 0xecuy; 0x95uy; 0xd2uy; 0xfeuy; 0xa0uy; 0x3buy; 0xd8uy; 0x3fuy; 0xd1uy; 0x69uy; 0xa6uy; 0xd6uy; 0x41uy; 0xb2uy; 0xf4uy; 0x4duy; 0x12uy; 0xf4uy; 0x58uy; 0x3euy; 0x66uy; 0x64uy; 0x80uy; 0x31uy; 0x9buy; 0xa8uy; 0x4cuy; 0x8buy; 0x07uy; 0xb2uy; 0xecuy; 0x66uy; 0x94uy; 0x66uy; 0x47uy; 0x50uy; 0x50uy; 0x5fuy; 0x18uy; 0x0buy; 0x0euy; 0xd6uy; 0xc0uy; 0x39uy; 0x21uy; 0x13uy; 0x9euy; 0x33uy; 0xbcuy; 0x79uy; 0x36uy; 0x02uy; 0x96uy; 0x70uy; 0xf0uy; 0x48uy; 0x67uy; 0x2fuy; 0x26uy; 0xe9uy; 0x6duy; 0x10uy; 0xbbuy; 0xd6uy; 0x3fuy; 0xd1uy; 0x64uy; 0x7auy; 0x2euy; 0xbeuy; 0x0cuy; 0x61uy; 0xf0uy; 0x75uy; 0x42uy; 0x38uy; 0x23uy; 0xb1uy; 0x9euy; 0x9fuy; 0x7cuy; 0x67uy; 0x66uy; 0xd9uy; 0x58uy; 0x9auy; 0xf1uy; 0xbbuy; 0x41uy; 0x2auy; 0x8duy; 0x65uy; 0x84uy; 0x94uy; 0xfcuy; 0xdcuy; 0x6auy; 0x50uy; 0x64uy; 0xdbuy; 0x56uy; 0x33uy; 0x76uy; 0x00uy; 0x10uy; 0xeduy; 0xbeuy; 0xd2uy; 0x12uy; 0xf6uy; 0xf6uy; 0x1buy; 0xa2uy; 0x16uy; 0xdeuy; 0xaeuy; 0x31uy; 0x95uy; 0xdduy; 0xb1uy; 0x08uy; 0x7euy; 0x4euy; 0xeeuy; 0xe7uy; 0xf9uy; 0xa5uy; 0xfbuy; 0x5buy; 0x61uy; 0x43uy; 0x00uy; 0x40uy; 0xf6uy; 0x7euy; 0x02uy; 0x04uy; 0x32uy; 0x4euy; 0x0cuy; 0xe2uy; 0x66uy; 0x0duy; 0xd7uy; 0x07uy; 0x98uy; 0x0euy; 0xf8uy; 0x72uy; 0x34uy; 0x6duy; 0x95uy; 0x86uy; 0xd7uy; 0xcbuy; 0x31uy; 0x54uy; 0x47uy; 0xd0uy; 0x38uy; 0x29uy; 0x9cuy; 0x5auy; 0x68uy; 0xd4uy; 0x87uy; 0x76uy; 0xc9uy; 0xe7uy; 0x7euy; 0xe3uy; 0xf4uy; 0x81uy; 0x6duy; 0x18uy; 0xcbuy; 0xc9uy; 0x05uy; 0xafuy; 0xa0uy; 0xfbuy; 0x66uy; 0xf7uy; 0xf1uy; 0x1cuy; 0xc6uy; 0x14uy; 0x11uy; 0x4fuy; 0x2buy; 0x79uy; 0x42uy; 0x8buy; 0xbcuy; 0xacuy; 0xe7uy; 0x6cuy; 0xfeuy; 0x0fuy; 0x58uy; 0xe7uy; 0x7cuy; 0x78uy; 0x39uy; 0x30uy; 0xb0uy; 0x66uy; 0x2cuy; 0x9buy; 0x6duy; 0x3auy; 0xe1uy; 0xcfuy; 0xc9uy; 0xa4uy; 0x0euy; 0x6duy; 0x6duy; 0x8auy; 0xa1uy; 0x3auy; 0xe7uy; 0x28uy; 0xd4uy; 0x78uy; 0x4cuy; 0xa6uy; 0xa2uy; 0x2auy; 0xa6uy; 0x03uy; 0x30uy; 0xd7uy; 0xa8uy; 0x25uy; 0x66uy; 0x87uy; 0x2fuy; 0x69uy; 0x5cuy; 0x4euy; 0xdduy; 0xa5uy; 0x49uy; 0x5duy; 0x37uy; 0x4auy; 0x59uy; 0xc4uy; 0xafuy; 0x1fuy; 0xa2uy; 0xe4uy; 0xf8uy; 0xa6uy; 0x12uy; 0x97uy; 0xd5uy; 0x79uy; 0xf5uy; 0xe2uy; 0x4auy; 0x2buy; 0x5fuy; 0x61uy; 0xe4uy; 0x9euy; 0xe3uy; 0xeeuy; 0xb8uy; 0xa7uy; 0x5buy; 0x2fuy; 0xf4uy; 0x9euy; 0x6cuy; 0xfbuy; 0xd1uy; 0xc6uy; 0x56uy; 0x77uy; 0xbauy; 0x75uy; 0xaauy; 0x3duy; 0x1auy; 0xa8uy; 0x0buy; 0xb3uy; 0x68uy; 0x24uy; 0x00uy; 0x10uy; 0x7fuy; 0xfduy; 0xd7uy; 0xa1uy; 0x8duy; 0x83uy; 0x54uy; 0x4fuy; 0x1fuy; 0xd8uy; 0x2auy; 0xbeuy; 0x8auy; 0x0cuy; 0x87uy; 0xabuy; 0xa2uy; 0xdeuy; 0xc3uy; 0x39uy; 0xbfuy; 0x09uy; 0x03uy; 0xa5uy; 0xf3uy; 0x05uy; 0x28uy; 0xe1uy; 0xe1uy; 0xeeuy; 0x39uy; 0x70uy; 0x9cuy; 0xd8uy; 0x81uy; 0x12uy; 0x1euy; 0x02uy; 0x40uy; 0xd2uy; 0x6euy; 0xf0uy; 0xebuy; 0x1buy; 0x3duy; 0x22uy; 0xc6uy; 0xe5uy; 0xe3uy; 0xb4uy; 0x5auy; 0x98uy; 0xbbuy; 0xf0uy; 0x22uy; 0x28uy; 0x8duy; 0xe5uy; 0xd3uy; 0x16uy; 0x48uy; 0x24uy; 0xa5uy; 0xe6uy; 0x66uy; 0x0cuy; 0xf9uy; 0x08uy; 0xf9uy; 0x7euy; 0x1euy; 0xe1uy; 0x28uy; 0x26uy; 0x22uy; 0xc7uy; 0xc7uy; 0x0auy; 0x32uy; 0x47uy; 0xfauy; 0xa3uy; 0xbeuy; 0x3cuy; 0xc4uy; 0xc5uy; 0x53uy; 0x0auy; 0xd5uy; 0x94uy; 0x4auy; 0xd7uy; 0x93uy; 0xd8uy; 0x42uy; 0x99uy; 0xb9uy; 0x0auy; 0xdbuy; 0x56uy; 0xf7uy; 0xb9uy; 0x1cuy; 0x53uy; 0x4fuy; 0xfauy; 0xd3uy; 0x74uy; 0xaduy; 0xd9uy; 0x68uy; 0xf1uy; 0x1buy; 0xdfuy; 0x61uy; 0xc6uy; 0x5euy; 0xa8uy; 0x48uy; 0xfcuy; 0xd4uy; 0x4auy; 0x4cuy; 0x3cuy; 0x32uy; 0xf7uy; 0x1cuy; 0x96uy; 0x21uy; 0x9buy; 0xf9uy; 0xa3uy; 0xccuy; 0x5auy; 0xceuy; 0xd5uy; 0xd7uy; 0x08uy; 0x24uy; 0xf6uy; 0x1cuy; 0xfduy; 0xdduy; 0x38uy; 0xc2uy; 0x32uy; 0xe9uy; 0xb8uy; 0xe7uy; 0xb6uy; 0xfauy; 0x9duy; 0x45uy; 0x13uy; 0x2cuy; 0x83uy; 0xfduy; 0x4auy; 0x69uy; 0x82uy; 0xcduy; 0xdcuy; 0xb3uy; 0x76uy; 0x0cuy; 0x9euy; 0xd8uy; 0xf4uy; 0x1buy; 0x45uy; 0x15uy; 0xb4uy; 0x97uy; 0xe7uy; 0x58uy; 0x34uy; 0xe2uy; 0x03uy; 0x29uy; 0x5auy; 0xbfuy; 0xb6uy; 0xe0uy; 0x5duy; 0x13uy; 0xd9uy; 0x2buy; 0xb4uy; 0x80uy; 0xb2uy; 0x45uy; 0x81uy; 0x6auy; 0x2euy; 0x6cuy; 0x89uy; 0x7duy; 0xeeuy; 0xbbuy; 0x52uy; 0xdduy; 0x1fuy; 0x18uy; 0xe7uy; 0x13uy; 0x6buy; 0x33uy; 0x0euy; 0xeauy; 0x36uy; 0x92uy; 0x77uy; 0x7buy; 0x6duy; 0x9cuy; 0x5auy; 0x5fuy; 0x45uy; 0x7buy; 0x7buy; 0x35uy; 0x62uy; 0x23uy; 0xd1uy; 0xbfuy; 0x0fuy; 0xd0uy; 0x08uy; 0x1buy; 0x2buy; 0x80uy; 0x6buy; 0x7euy; 0xf1uy; 0x21uy; 0x47uy; 0xb0uy; 0x57uy; 0xd1uy; 0x98uy; 0x72uy; 0x90uy; 0x34uy; 0x1cuy; 0x20uy; 0x04uy; 0xffuy; 0x3duy; 0x5cuy; 0xeeuy; 0x0euy; 0x57uy; 0x5fuy; 0x6fuy; 0x24uy; 0x4euy; 0x3cuy; 0xeauy; 0xfcuy; 0xa5uy; 0xa9uy; 0x83uy; 0xc9uy; 0x61uy; 0xb4uy; 0x51uy; 0x24uy; 0xf8uy; 0x27uy; 0x5euy; 0x46uy; 0x8cuy; 0xb1uy; 0x53uy; 0x02uy; 0x96uy; 0x35uy; 0xbauy; 0xb8uy; 0x4cuy; 0x71uy; 0xd3uy; 0x15uy; 0x59uy; 0x35uy; 0x22uy; 0x20uy; 0xaduy; 0x03uy; 0x9fuy; 0x66uy; 0x44uy; 0x3buy; 0x9cuy; 0x35uy; 0x37uy; 0x1fuy; 0x9buy; 0xbbuy; 0xf3uy; 0xdbuy; 0x35uy; 0x63uy; 0x30uy; 0x64uy; 0xaauy; 0xa2uy; 0x06uy; 0xa8uy; 0x5duy; 0xbbuy; 0xe1uy; 0x9fuy; 0x70uy; 0xecuy; 0x82uy; 0x11uy; 0x06uy; 0x36uy; 0xecuy; 0x8buy; 0x69uy; 0x66uy; 0x24uy; 0x44uy; 0xc9uy; 0x4auy; 0x57uy; 0xbbuy; 0x9buy; 0x78uy; 0x13uy; 0xceuy; 0x9cuy; 0x0cuy; 0xbauy; 0x92uy; 0x93uy; 0x63uy; 0xb8uy; 0xe2uy; 0x95uy; 0x0fuy; 0x0fuy; 0x16uy; 0x39uy; 0x52uy; 0xfduy; 0x3auy; 0x6duy; 0x02uy; 0x4buy; 0xdfuy; 0x13uy; 0xd3uy; 0x2auy; 0x22uy; 0xb4uy; 0x03uy; 0x7cuy; 0x54uy; 0x49uy; 0x96uy; 0x68uy; 0x54uy; 0x10uy; 0xfauy; 0xefuy; 0xaauy; 0x6cuy; 0xe8uy; 0x22uy; 0xdcuy; 0x71uy; 0x16uy; 0x13uy; 0x1auy; 0xf6uy; 0x28uy; 0xe5uy; 0x6duy; 0x77uy; 0x3duy; 0xcduy; 0x30uy; 0x63uy; 0xb1uy; 0x70uy; 0x52uy; 0xa1uy; 0xc5uy; 0x94uy; 0x5fuy; 0xcfuy; 0xe8uy; 0xb8uy; 0x26uy; 0x98uy; 0xf7uy; 0x06uy; 0xa0uy; 0x0auy; 0x70uy; 0xfauy; 0x03uy; 0x80uy; 0xacuy; 0xc1uy; 0xecuy; 0xd6uy; 0x4cuy; 0x54uy; 0xd7uy; 0xfeuy; 0x47uy; 0xb6uy; 0x88uy; 0x4auy; 0xf7uy; 0x71uy; 0x24uy; 0xeeuy; 0xf3uy; 0xd2uy; 0xc2uy; 0x4auy; 0x7fuy; 0xfeuy; 0x61uy; 0xc7uy; 0x35uy; 0xc9uy; 0x37uy; 0x67uy; 0xcbuy; 0x24uy; 0x35uy; 0xdauy; 0x7euy; 0xcauy; 0x5fuy; 0xf3uy; 0x8duy; 0xd4uy; 0x13uy; 0x8euy; 0xd6uy; 0xcbuy; 0x4duy; 0x53uy; 0x8fuy; 0x53uy; 0x1fuy; 0xc0uy; 0x74uy; 0xf7uy; 0x53uy; 0xb9uy; 0x5euy; 0x23uy; 0x37uy; 0xbauy; 0x6euy; 0xe3uy; 0x9duy; 0x07uy; 0x55uy; 0x25uy; 0x7buy; 0xe6uy; 0x2auy; 0x64uy; 0xd1uy; 0x32uy; 0xdduy; 0x54uy; 0x1buy; 0x4buy; 0xc0uy; 0xe1uy; 0xd7uy; 0x69uy; 0x58uy; 0xf8uy; 0x93uy; 0x29uy; 0xc4uy; 0xdduy; 0x23uy; 0x2fuy; 0xa5uy; 0xfcuy; 0x9duy; 0x7euy; 0xf8uy; 0xd4uy; 0x90uy; 0xcduy; 0x82uy; 0x55uy; 0xdcuy; 0x16uy; 0x16uy; 0x9fuy; 0x07uy; 0x52uy; 0x9buy; 0x9duy; 0x25uy; 0xeduy; 0x32uy; 0xc5uy; 0x7buy; 0xdfuy; 0xf6uy; 0x83uy; 0x46uy; 0x3duy; 0x65uy; 0xb7uy; 0xefuy; 0x87uy; 0x7auy; 0x12uy; 0x69uy; 0x8fuy; 0x06uy; 0x7cuy; 0x51uy; 0x15uy; 0x4auy; 0x08uy; 0xe8uy; 0xacuy; 0x9auy; 0x0cuy; 0x24uy; 0xa7uy; 0x27uy; 0xd8uy; 0x46uy; 0x2fuy; 0xe7uy; 0x01uy; 0x0euy; 0x1cuy; 0xc6uy; 0x91uy; 0xb0uy; 0x6euy; 0x85uy; 0x65uy; 0xf0uy; 0x29uy; 0x0duy; 0x2euy; 0x6buy; 0x3buy; 0xfbuy; 0x4buy; 0xdfuy; 0xe4uy; 0x80uy; 0x93uy; 0x03uy; 0x66uy; 0x46uy; 0x3euy; 0x8auy; 0x6euy; 0xf3uy; 0x5euy; 0x4duy; 0x62uy; 0x0euy; 0x49uy; 0x05uy; 0xafuy; 0xd4uy; 0xf8uy; 0x21uy; 0x20uy; 0x61uy; 0x1duy; 0x39uy; 0x17uy; 0xf4uy; 0x61uy; 0x47uy; 0x95uy; 0xfbuy; 0x15uy; 0x2euy; 0xb3uy; 0x4fuy; 0xd0uy; 0x5duy; 0xf5uy; 0x7duy; 0x40uy; 0xdauy; 0x90uy; 0x3cuy; 0x6buy; 0xcbuy; 0x17uy; 0x00uy; 0x13uy; 0x3buy; 0x64uy; 0x34uy; 0x1buy; 0xf0uy; 0xf2uy; 0xe5uy; 0x3buy; 0xb2uy; 0xc7uy; 0xd3uy; 0x5fuy; 0x3auy; 0x44uy; 0xa6uy; 0x9buy; 0xb7uy; 0x78uy; 0x0euy; 0x42uy; 0x5duy; 0x4cuy; 0xc1uy; 0xe9uy; 0xd2uy; 0xcbuy; 0xb7uy; 0x78uy; 0xd1uy; 0xfeuy; 0x9auy; 0xb5uy; 0x07uy; 0xe9uy; 0xe0uy; 0xbeuy; 0xe2uy; 0x8auy; 0xa7uy; 0x01uy; 0x83uy; 0x00uy; 0x8cuy; 0x5cuy; 0x08uy; 0xe6uy; 0x63uy; 0x12uy; 0x92uy; 0xb7uy; 0xb7uy; 0xa6uy; 0x19uy; 0x7duy; 0x38uy; 0x13uy; 0x38uy; 0x92uy; 0x87uy; 0x24uy; 0xf9uy; 0x48uy; 0xb3uy; 0x5euy; 0x87uy; 0x6auy; 0x40uy; 0x39uy; 0x5cuy; 0x3fuy; 0xeduy; 0x8fuy; 0xeeuy; 0xdbuy; 0x15uy; 0x82uy; 0x06uy; 0xdauy; 0x49uy; 0x21uy; 0x2buy; 0xb5uy; 0xbfuy; 0x32uy; 0x7cuy; 0x9fuy; 0x42uy; 0x28uy; 0x63uy; 0xcfuy; 0xafuy; 0x1euy; 0xf8uy; 0xc6uy; 0xa0uy; 0xd1uy; 0x02uy; 0x43uy; 0x57uy; 0x62uy; 0xecuy; 0x9buy; 0x0fuy; 0x01uy; 0x9euy; 0x71uy; 0xd8uy; 0x87uy; 0x9duy; 0x01uy; 0xc1uy; 0x58uy; 0x77uy; 0xd9uy; 0xafuy; 0xb1uy; 0x10uy; 0x7euy; 0xdduy; 0xa6uy; 0x50uy; 0x96uy; 0xe5uy; 0xf0uy; 0x72uy; 0x00uy; 0x6duy; 0x4buy; 0xf8uy; 0x2auy; 0x8fuy; 0x19uy; 0xf3uy; 0x22uy; 0x88uy; 0x11uy; 0x4auy; 0x8buy; 0x7cuy; 0xfduy; 0xb7uy; 0xeduy; 0xe1uy; 0xf6uy; 0x40uy; 0x39uy; 0xe0uy; 0xe9uy; 0xf6uy; 0x3duy; 0x25uy; 0xe6uy; 0x74uy; 0x3cuy; 0x58uy; 0x57uy; 0x7fuy; 0xe1uy; 0x22uy; 0x96uy; 0x47uy; 0x31uy; 0x91uy; 0xbauy; 0x70uy; 0x85uy; 0x28uy; 0x6buy; 0x9fuy; 0x6euy; 0x25uy; 0xacuy; 0x23uy; 0x66uy; 0x2fuy; 0x29uy; 0x88uy; 0x28uy; 0xceuy; 0x8cuy; 0x5cuy; 0x88uy; 0x53uy; 0xd1uy; 0x3buy; 0xccuy; 0x6auy; 0x51uy; 0xb2uy; 0xe1uy; 0x28uy; 0x3fuy; 0x91uy; 0xb4uy; 0x0duy; 0x00uy; 0x3auy; 0xe3uy; 0xf8uy; 0xc3uy; 0x8fuy; 0xd7uy; 0x96uy; 0x62uy; 0x0euy; 0x2euy; 0xfcuy; 0xc8uy; 0x6cuy; 0x77uy; 0xa6uy; 0x1duy; 0x22uy; 0xc1uy; 0xb8uy; 0xe6uy; 0x61uy; 0xd7uy; 0x67uy; 0x36uy; 0x13uy; 0x7buy; 0xbbuy; 0x9buy; 0x59uy; 0x09uy; 0xa6uy; 0xdfuy; 0xf7uy; 0x6buy; 0xa3uy; 0x40uy; 0x1auy; 0xf5uy; 0x4fuy; 0xb4uy; 0xdauy; 0xd3uy; 0xf3uy; 0x81uy; 0x93uy; 0xc6uy; 0x18uy; 0xd9uy; 0x26uy; 0xeeuy; 0xacuy; 0xf0uy; 0xaauy; 0xdfuy; 0xc5uy; 0x9cuy; 0xcauy; 0xc2uy; 0xa2uy; 0xccuy; 0x7buy; 0x5cuy; 0x24uy; 0xb0uy; 0xbcuy; 0xd0uy; 0x6auy; 0x4duy; 0x89uy; 0x09uy; 0xb8uy; 0x07uy; 0xfeuy; 0x87uy; 0xaduy; 0x0auy; 0xeauy; 0xb8uy; 0x42uy; 0xf9uy; 0x5euy; 0xb3uy; 0x3euy; 0x36uy; 0x4cuy; 0xafuy; 0x75uy; 0x9euy; 0x1cuy; 0xebuy; 0xbduy; 0xbcuy; 0xbbuy; 0x80uy; 0x40uy; 0xa7uy; 0x3auy; 0x30uy; 0xbfuy; 0xa8uy; 0x44uy; 0xf4uy; 0xebuy; 0x38uy; 0xaduy; 0x29uy; 0xbauy; 0x23uy; 0xeduy; 0x41uy; 0x0cuy; 0xeauy; 0xd2uy; 0xbbuy; 0x41uy; 0x18uy; 0xd6uy; 0xb9uy; 0xbauy; 0x65uy; 0x2buy; 0xa3uy; 0x91uy; 0x6duy; 0x1fuy; 0xa9uy; 0xf4uy; 0xd1uy; 0x25uy; 0x8duy; 0x4duy; 0x38uy; 0xffuy; 0x64uy; 0xa0uy; 0xecuy; 0xdeuy; 0xa6uy; 0xb6uy; 0x79uy; 0xabuy; 0x8euy; 0x33uy; 0x6cuy; 0x47uy; 0xdeuy; 0xafuy; 0x94uy; 0xa4uy; 0xa5uy; 0x86uy; 0x77uy; 0x55uy; 0x09uy; 0x92uy; 0x81uy; 0x31uy; 0x76uy; 0xc7uy; 0x34uy; 0x22uy; 0x89uy; 0x8euy; 0x3duy; 0x26uy; 0x26uy; 0xd7uy; 0xfcuy; 0x1euy; 0x16uy; 0x72uy; 0x13uy; 0x33uy; 0x63uy; 0xd5uy; 0x22uy; 0xbeuy; 0xb8uy; 0x04uy; 0x34uy; 0x84uy; 0x41uy; 0xbbuy; 0x80uy; 0xd0uy; 0x9fuy; 0x46uy; 0x48uy; 0x07uy; 0xa7uy; 0xfcuy; 0x2buy; 0x3auy; 0x75uy; 0x55uy; 0x8cuy; 0xc7uy; 0x6auy; 0xbduy; 0x7euy; 0x46uy; 0x08uy; 0x84uy; 0x0fuy; 0xd5uy; 0x74uy; 0xc0uy; 0x82uy; 0x8euy; 0xaauy; 0x61uy; 0x05uy; 0x01uy; 0xb2uy; 0x47uy; 0x6euy; 0x20uy; 0x6auy; 0x2duy; 0x58uy; 0x70uy; 0x48uy; 0x32uy; 0xa7uy; 0x37uy; 0xd2uy; 0xb8uy; 0x82uy; 0x1auy; 0x51uy; 0xb9uy; 0x61uy; 0xdduy; 0xfduy; 0x9duy; 0x6buy; 0x0euy; 0x18uy; 0x97uy; 0xf8uy; 0x45uy; 0x5fuy; 0x87uy; 0x10uy; 0xcfuy; 0x34uy; 0x72uy; 0x45uy; 0x26uy; 0x49uy; 0x70uy; 0xe7uy; 0xa3uy; 0x78uy; 0xe0uy; 0x52uy; 0x89uy; 0x84uy; 0x94uy; 0x83uy; 0x82uy; 0xc2uy; 0x69uy; 0x8fuy; 0xe3uy; 0xe1uy; 0x3fuy; 0x60uy; 0x74uy; 0x88uy; 0xc4uy; 0xf7uy; 0x75uy; 0x2cuy; 0xfbuy; 0xbduy; 0xb6uy; 0xc4uy; 0x7euy; 0x10uy; 0x0auy; 0x6cuy; 0x90uy; 0x04uy; 0x9euy; 0xc3uy; 0x3fuy; 0x59uy; 0x7cuy; 0xceuy; 0x31uy; 0x18uy; 0x60uy; 0x57uy; 0x73uy; 0x46uy; 0x94uy; 0x7duy; 0x06uy; 0xa0uy; 0x6duy; 0x44uy; 0xecuy; 0xa2uy; 0x0auy; 0x9euy; 0x05uy; 0x15uy; 0xefuy; 0xcauy; 0x5cuy; 0xbfuy; 0x00uy; 0xebuy; 0xf7uy; 0x3duy; 0x32uy; 0xd4uy; 0xa5uy; 0xefuy; 0x49uy; 0x89uy; 0x5euy; 0x46uy; 0xb0uy; 0xa6uy; 0x63uy; 0x5buy; 0x8auy; 0x73uy; 0xaeuy; 0x6fuy; 0xd5uy; 0x9duy; 0xf8uy; 0x4fuy; 0x40uy; 0xb5uy; 0xb2uy; 0x6euy; 0xd3uy; 0xb6uy; 0x01uy; 0xa9uy; 0x26uy; 0xa2uy; 0x21uy; 0xcfuy; 0x33uy; 0x7auy; 0x3auy; 0xa4uy; 0x23uy; 0x13uy; 0xb0uy; 0x69uy; 0x6auy; 0xeeuy; 0xceuy; 0xd8uy; 0x9duy; 0x01uy; 0x1duy; 0x50uy; 0xc1uy; 0x30uy; 0x6cuy; 0xb1uy; 0xcduy; 0xa0uy; 0xf0uy; 0xf0uy; 0xa2uy; 0x64uy; 0x6fuy; 0xbbuy; 0xbfuy; 0x5euy; 0xe6uy; 0xabuy; 0x87uy; 0xb4uy; 0x0fuy; 0x4fuy; 0x15uy; 0xafuy; 0xb5uy; 0x25uy; 0xa1uy; 0xb2uy; 0xd0uy; 0x80uy; 0x2cuy; 0xfbuy; 0xf9uy; 0xfeuy; 0xd2uy; 0x33uy; 0xbbuy; 0x76uy; 0xfeuy; 0x7cuy; 0xa8uy; 0x66uy; 0xf7uy; 0xe7uy; 0x85uy; 0x9fuy; 0x1fuy; 0x85uy; 0x57uy; 0x88uy; 0xe1uy; 0xe9uy; 0x63uy; 0xe4uy; 0xd8uy; 0x1cuy; 0xa1uy; 0xfbuy; 0xdauy; 0x44uy; 0x05uy; 0x2euy; 0x1duy; 0x3auy; 0x1cuy; 0xffuy; 0xc8uy; 0x3buy; 0xc0uy; 0xfeuy; 0xdauy; 0x22uy; 0x0buy; 0x43uy; 0xd6uy; 0x88uy; 0x39uy; 0x4cuy; 0x4auy; 0xa6uy; 0x69uy; 0x18uy; 0x93uy; 0x42uy; 0x4euy; 0xb5uy; 0xccuy; 0x66uy; 0x0duy; 0x09uy; 0xf8uy; 0x1euy; 0x7cuy; 0xd3uy; 0x3cuy; 0x99uy; 0x0duy; 0x50uy; 0x1duy; 0x62uy; 0xe9uy; 0x57uy; 0x06uy; 0xbfuy; 0x19uy; 0x88uy; 0xdduy; 0xaduy; 0x7buy; 0x4fuy; 0xf9uy; 0xc7uy; 0x82uy; 0x6duy; 0x8duy; 0xc8uy; 0xc4uy; 0xc5uy; 0x78uy; 0x17uy; 0x20uy; 0x15uy; 0xc5uy; 0x52uy; 0x41uy; 0xcfuy; 0x5buy; 0xd6uy; 0x7fuy; 0x94uy; 0x02uy; 0x41uy; 0xe0uy; 0x40uy; 0x22uy; 0x03uy; 0x5euy; 0xd1uy; 0x53uy; 0xd4uy; 0x86uy; 0xd3uy; 0x2cuy; 0x9fuy; 0x0fuy; 0x96uy; 0xe3uy; 0x6buy; 0x9auy; 0x76uy; 0x32uy; 0x06uy; 0x47uy; 0x4buy; 0x11uy; 0xb3uy; 0xdduy; 0x03uy; 0x65uy; 0xbduy; 0x9buy; 0x01uy; 0xdauy; 0x9cuy; 0xb9uy; 0x7euy; 0x3fuy; 0x6auy; 0xc4uy; 0x7buy; 0xeauy; 0xd4uy; 0x3cuy; 0xb9uy; 0xfbuy; 0x5cuy; 0x6buy; 0x64uy; 0x33uy; 0x52uy; 0xbauy; 0x64uy; 0x78uy; 0x8fuy; 0xa4uy; 0xafuy; 0x7auy; 0x61uy; 0x8duy; 0xbcuy; 0xc5uy; 0x73uy; 0xe9uy; 0x6buy; 0x58uy; 0x97uy; 0x4buy; 0xbfuy; 0x63uy; 0x22uy; 0xd3uy; 0x37uy; 0x02uy; 0x54uy; 0xc5uy; 0xb9uy; 0x16uy; 0x4auy; 0xf0uy; 0x19uy; 0xd8uy; 0x94uy; 0x57uy; 0xb8uy; 0x8auy; 0xb3uy; 0x16uy; 0x3buy; 0xd0uy; 0x84uy; 0x8euy; 0x67uy; 0xa6uy; 0xa3uy; 0x7duy; 0x78uy; 0xecuy; 0x00uy; ] in
assert_norm (List.Tot.length l = 2011);
B.gcmalloc_of_list HyperStack.root l
inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) =
2011ul | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.HyperStack.fst.checked"
],
"interface_file": false,
"source_file": "Test.Vectors.Chacha20Poly1305.fst"
} | [
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Test.Vectors",
"short_module": null
},
{
"abbrev": false,
"full_module": "Test.Vectors",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | b:
LowStar.Buffer.buffer FStar.UInt8.t
{LowStar.Monotonic.Buffer.length b = 2027 /\ LowStar.Monotonic.Buffer.recallable b} | Prims.Tot | [
"total"
] | [] | [
"LowStar.Buffer.gcmalloc_of_list",
"FStar.UInt8.t",
"FStar.Monotonic.HyperHeap.root",
"LowStar.Monotonic.Buffer.mbuffer",
"LowStar.Buffer.trivial_preorder",
"Prims.l_and",
"Prims.eq2",
"Prims.nat",
"LowStar.Monotonic.Buffer.length",
"FStar.Pervasives.normalize_term",
"FStar.List.Tot.Base.length",
"Prims.b2t",
"Prims.op_Negation",
"LowStar.Monotonic.Buffer.g_is_null",
"FStar.Monotonic.HyperHeap.rid",
"LowStar.Monotonic.Buffer.frameOf",
"LowStar.Monotonic.Buffer.recallable",
"Prims.unit",
"FStar.Pervasives.assert_norm",
"Prims.op_Equality",
"Prims.int",
"LowStar.Buffer.buffer",
"Prims.list",
"Prims.Cons",
"FStar.UInt8.__uint_to_t",
"Prims.Nil"
] | [] | false | false | false | false | false | let output11:(b: B.buffer UInt8.t {B.length b = 2027 /\ B.recallable b}) =
| [@@ inline_let ]let l =
[
0x52uy; 0x34uy; 0xb3uy; 0x65uy; 0x3buy; 0xb7uy; 0xe5uy; 0xd3uy; 0xabuy; 0x49uy; 0x17uy; 0x60uy;
0xd2uy; 0x52uy; 0x56uy; 0xdfuy; 0xdfuy; 0x34uy; 0x56uy; 0x82uy; 0xe2uy; 0xbeuy; 0xe5uy; 0xe1uy;
0x28uy; 0xd1uy; 0x4euy; 0x5fuy; 0x4fuy; 0x01uy; 0x7duy; 0x3fuy; 0x99uy; 0x6buy; 0x30uy; 0x6euy;
0x1auy; 0x7cuy; 0x4cuy; 0x8euy; 0x62uy; 0x81uy; 0xaeuy; 0x86uy; 0x3fuy; 0x6buy; 0xd0uy; 0xb5uy;
0xa9uy; 0xcfuy; 0x50uy; 0xf1uy; 0x02uy; 0x12uy; 0xa0uy; 0x0buy; 0x24uy; 0xe9uy; 0xe6uy; 0x72uy;
0x89uy; 0x2cuy; 0x52uy; 0x1buy; 0x34uy; 0x38uy; 0xf8uy; 0x75uy; 0x5fuy; 0xa0uy; 0x74uy; 0xe2uy;
0x99uy; 0xdduy; 0xa6uy; 0x4buy; 0x14uy; 0x50uy; 0x4euy; 0xf1uy; 0xbeuy; 0xd6uy; 0x9euy; 0xdbuy;
0xb2uy; 0x24uy; 0x27uy; 0x74uy; 0x12uy; 0x4auy; 0x78uy; 0x78uy; 0x17uy; 0xa5uy; 0x58uy; 0x8euy;
0x2fuy; 0xf9uy; 0xf4uy; 0x8duy; 0xeeuy; 0x03uy; 0x88uy; 0xaeuy; 0xb8uy; 0x29uy; 0xa1uy; 0x2fuy;
0x4buy; 0xeeuy; 0x92uy; 0xbduy; 0x87uy; 0xb3uy; 0xceuy; 0x34uy; 0x21uy; 0x57uy; 0x46uy; 0x04uy;
0x49uy; 0x0cuy; 0x80uy; 0xf2uy; 0x01uy; 0x13uy; 0xa1uy; 0x55uy; 0xb3uy; 0xffuy; 0x44uy; 0x30uy;
0x3cuy; 0x1cuy; 0xd0uy; 0xefuy; 0xbcuy; 0x18uy; 0x74uy; 0x26uy; 0xaduy; 0x41uy; 0x5buy; 0x5buy;
0x3euy; 0x9auy; 0x7auy; 0x46uy; 0x4fuy; 0x16uy; 0xd6uy; 0x74uy; 0x5auy; 0xb7uy; 0x3auy; 0x28uy;
0x31uy; 0xd8uy; 0xaeuy; 0x26uy; 0xacuy; 0x50uy; 0x53uy; 0x86uy; 0xf2uy; 0x56uy; 0xd7uy; 0x3fuy;
0x29uy; 0xbcuy; 0x45uy; 0x68uy; 0x8euy; 0xcbuy; 0x98uy; 0x64uy; 0xdduy; 0xc9uy; 0xbauy; 0xb8uy;
0x4buy; 0x7buy; 0x82uy; 0xdduy; 0x14uy; 0xa7uy; 0xcbuy; 0x71uy; 0x72uy; 0x00uy; 0x5cuy; 0xaduy;
0x7buy; 0x6auy; 0x89uy; 0xa4uy; 0x3duy; 0xbfuy; 0xb5uy; 0x4buy; 0x3euy; 0x7cuy; 0x5auy; 0xcfuy;
0xb8uy; 0xa1uy; 0xc5uy; 0x6euy; 0xc8uy; 0xb6uy; 0x31uy; 0x57uy; 0x7buy; 0xdfuy; 0xa5uy; 0x7euy;
0xb1uy; 0xd6uy; 0x42uy; 0x2auy; 0x31uy; 0x36uy; 0xd1uy; 0xd0uy; 0x3fuy; 0x7auy; 0xe5uy; 0x94uy;
0xd6uy; 0x36uy; 0xa0uy; 0x6fuy; 0xb7uy; 0x40uy; 0x7duy; 0x37uy; 0xc6uy; 0x55uy; 0x7cuy; 0x50uy;
0x40uy; 0x6duy; 0x29uy; 0x89uy; 0xe3uy; 0x5auy; 0xaeuy; 0x97uy; 0xe7uy; 0x44uy; 0x49uy; 0x6euy;
0xbduy; 0x81uy; 0x3duy; 0x03uy; 0x93uy; 0x06uy; 0x12uy; 0x06uy; 0xe2uy; 0x41uy; 0x12uy; 0x4auy;
0xf1uy; 0x6auy; 0xa4uy; 0x58uy; 0xa2uy; 0xfbuy; 0xd2uy; 0x15uy; 0xbauy; 0xc9uy; 0x79uy; 0xc9uy;
0xceuy; 0x5euy; 0x13uy; 0xbbuy; 0xf1uy; 0x09uy; 0x04uy; 0xccuy; 0xfduy; 0xe8uy; 0x51uy; 0x34uy;
0x6auy; 0xe8uy; 0x61uy; 0x88uy; 0xdauy; 0xeduy; 0x01uy; 0x47uy; 0x84uy; 0xf5uy; 0x73uy; 0x25uy;
0xf9uy; 0x1cuy; 0x42uy; 0x86uy; 0x07uy; 0xf3uy; 0x5buy; 0x1auy; 0x01uy; 0xb3uy; 0xebuy; 0x24uy;
0x32uy; 0x8duy; 0xf6uy; 0xeduy; 0x7cuy; 0x4buy; 0xebuy; 0x3cuy; 0x36uy; 0x42uy; 0x28uy; 0xdfuy;
0xdfuy; 0xb6uy; 0xbeuy; 0xd9uy; 0x8cuy; 0x52uy; 0xd3uy; 0x2buy; 0x08uy; 0x90uy; 0x8cuy; 0xe7uy;
0x98uy; 0x31uy; 0xe2uy; 0x32uy; 0x8euy; 0xfcuy; 0x11uy; 0x48uy; 0x00uy; 0xa8uy; 0x6auy; 0x42uy;
0x4auy; 0x02uy; 0xc6uy; 0x4buy; 0x09uy; 0xf1uy; 0xe3uy; 0x49uy; 0xf3uy; 0x45uy; 0x1fuy; 0x0euy;
0xbcuy; 0x56uy; 0xe2uy; 0xe4uy; 0xdfuy; 0xfbuy; 0xebuy; 0x61uy; 0xfauy; 0x24uy; 0xc1uy; 0x63uy;
0x75uy; 0xbbuy; 0x47uy; 0x75uy; 0xafuy; 0xe1uy; 0x53uy; 0x16uy; 0x96uy; 0x21uy; 0x85uy; 0x26uy;
0x11uy; 0xb3uy; 0x76uy; 0xe3uy; 0x23uy; 0xa1uy; 0x6buy; 0x74uy; 0x37uy; 0xd0uy; 0xdeuy; 0x06uy;
0x90uy; 0x71uy; 0x5duy; 0x43uy; 0x88uy; 0x9buy; 0x00uy; 0x54uy; 0xa6uy; 0x75uy; 0x2fuy; 0xa1uy;
0xc2uy; 0x0buy; 0x73uy; 0x20uy; 0x1duy; 0xb6uy; 0x21uy; 0x79uy; 0x57uy; 0x3fuy; 0xfauy; 0x09uy;
0xbeuy; 0x8auy; 0x33uy; 0xc3uy; 0x52uy; 0xf0uy; 0x1duy; 0x82uy; 0x31uy; 0xd1uy; 0x55uy; 0xb5uy;
0x6cuy; 0x99uy; 0x25uy; 0xcfuy; 0x5cuy; 0x32uy; 0xceuy; 0xe9uy; 0x0duy; 0xfauy; 0x69uy; 0x2cuy;
0xd5uy; 0x0duy; 0xc5uy; 0x6duy; 0x86uy; 0xd0uy; 0x0cuy; 0x3buy; 0x06uy; 0x50uy; 0x79uy; 0xe8uy;
0xc3uy; 0xaeuy; 0x04uy; 0xe6uy; 0xcduy; 0x51uy; 0xe4uy; 0x26uy; 0x9buy; 0x4fuy; 0x7euy; 0xa6uy;
0x0fuy; 0xabuy; 0xd8uy; 0xe5uy; 0xdeuy; 0xa9uy; 0x00uy; 0x95uy; 0xbeuy; 0xa3uy; 0x9duy; 0x5duy;
0xb2uy; 0x09uy; 0x70uy; 0x18uy; 0x1cuy; 0xf0uy; 0xacuy; 0x29uy; 0x23uy; 0x02uy; 0x29uy; 0x28uy;
0xd2uy; 0x74uy; 0x35uy; 0x57uy; 0x62uy; 0x0fuy; 0x24uy; 0xeauy; 0x5euy; 0x33uy; 0xc2uy; 0x92uy;
0xf3uy; 0x78uy; 0x4duy; 0x30uy; 0x1euy; 0xa1uy; 0x99uy; 0xa9uy; 0x82uy; 0xb0uy; 0x42uy; 0x31uy;
0x8duy; 0xaduy; 0x8auy; 0xbcuy; 0xfcuy; 0xd4uy; 0x57uy; 0x47uy; 0x3euy; 0xb4uy; 0x50uy; 0xdduy;
0x6euy; 0x2cuy; 0x80uy; 0x4duy; 0x22uy; 0xf1uy; 0xfbuy; 0x57uy; 0xc4uy; 0xdduy; 0x17uy; 0xe1uy;
0x8auy; 0x36uy; 0x4auy; 0xb3uy; 0x37uy; 0xcauy; 0xc9uy; 0x4euy; 0xabuy; 0xd5uy; 0x69uy; 0xc4uy;
0xf4uy; 0xbcuy; 0x0buy; 0x3buy; 0x44uy; 0x4buy; 0x29uy; 0x9cuy; 0xeeuy; 0xd4uy; 0x35uy; 0x22uy;
0x21uy; 0xb0uy; 0x1fuy; 0x27uy; 0x64uy; 0xa8uy; 0x51uy; 0x1buy; 0xf0uy; 0x9fuy; 0x19uy; 0x5cuy;
0xfbuy; 0x5auy; 0x64uy; 0x74uy; 0x70uy; 0x45uy; 0x09uy; 0xf5uy; 0x64uy; 0xfeuy; 0x1auy; 0x2duy;
0xc9uy; 0x14uy; 0x04uy; 0x14uy; 0xcfuy; 0xd5uy; 0x7duy; 0x60uy; 0xafuy; 0x94uy; 0x39uy; 0x94uy;
0xe2uy; 0x7duy; 0x79uy; 0x82uy; 0xd0uy; 0x65uy; 0x3buy; 0x6buy; 0x9cuy; 0x19uy; 0x84uy; 0xb4uy;
0x6duy; 0xb3uy; 0x0cuy; 0x99uy; 0xc0uy; 0x56uy; 0xa8uy; 0xbduy; 0x73uy; 0xceuy; 0x05uy; 0x84uy;
0x3euy; 0x30uy; 0xaauy; 0xc4uy; 0x9buy; 0x1buy; 0x04uy; 0x2auy; 0x9fuy; 0xd7uy; 0x43uy; 0x2buy;
0x23uy; 0xdfuy; 0xbfuy; 0xaauy; 0xd5uy; 0xc2uy; 0x43uy; 0x2duy; 0x70uy; 0xabuy; 0xdcuy; 0x75uy;
0xaduy; 0xacuy; 0xf7uy; 0xc0uy; 0xbeuy; 0x67uy; 0xb2uy; 0x74uy; 0xeduy; 0x67uy; 0x10uy; 0x4auy;
0x92uy; 0x60uy; 0xc1uy; 0x40uy; 0x50uy; 0x19uy; 0x8auy; 0x8auy; 0x8cuy; 0x09uy; 0x0euy; 0x72uy;
0xe1uy; 0x73uy; 0x5euy; 0xe8uy; 0x41uy; 0x85uy; 0x63uy; 0x9fuy; 0x3fuy; 0xd7uy; 0x7duy; 0xc4uy;
0xfbuy; 0x22uy; 0x5duy; 0x92uy; 0x6cuy; 0xb3uy; 0x1euy; 0xe2uy; 0x50uy; 0x2fuy; 0x82uy; 0xa8uy;
0x28uy; 0xc0uy; 0xb5uy; 0xd7uy; 0x5fuy; 0x68uy; 0x0duy; 0x2cuy; 0x2duy; 0xafuy; 0x7euy; 0xfauy;
0x2euy; 0x08uy; 0x0fuy; 0x1fuy; 0x70uy; 0x9fuy; 0xe9uy; 0x19uy; 0x72uy; 0x55uy; 0xf8uy; 0xfbuy;
0x51uy; 0xd2uy; 0x33uy; 0x5duy; 0xa0uy; 0xd3uy; 0x2buy; 0x0auy; 0x6cuy; 0xbcuy; 0x4euy; 0xcfuy;
0x36uy; 0x4duy; 0xdcuy; 0x3buy; 0xe9uy; 0x3euy; 0x81uy; 0x7cuy; 0x61uy; 0xdbuy; 0x20uy; 0x2duy;
0x3auy; 0xc3uy; 0xb3uy; 0x0cuy; 0x1euy; 0x00uy; 0xb9uy; 0x7cuy; 0xf5uy; 0xcauy; 0x10uy; 0x5fuy;
0x3auy; 0x71uy; 0xb3uy; 0xe4uy; 0x20uy; 0xdbuy; 0x0cuy; 0x2auy; 0x98uy; 0x63uy; 0x45uy; 0x00uy;
0x58uy; 0xf6uy; 0x68uy; 0xe4uy; 0x0buy; 0xdauy; 0x13uy; 0x3buy; 0x60uy; 0x5cuy; 0x76uy; 0xdbuy;
0xb9uy; 0x97uy; 0x71uy; 0xe4uy; 0xd9uy; 0xb7uy; 0xdbuy; 0xbduy; 0x68uy; 0xc7uy; 0x84uy; 0x84uy;
0xaauy; 0x7cuy; 0x68uy; 0x62uy; 0x5euy; 0x16uy; 0xfcuy; 0xbauy; 0x72uy; 0xaauy; 0x9auy; 0xa9uy;
0xebuy; 0x7cuy; 0x75uy; 0x47uy; 0x97uy; 0x7euy; 0xaduy; 0xe2uy; 0xd9uy; 0x91uy; 0xe8uy; 0xe4uy;
0xa5uy; 0x31uy; 0xd7uy; 0x01uy; 0x8euy; 0xa2uy; 0x11uy; 0x88uy; 0x95uy; 0xb9uy; 0xf2uy; 0x9buy;
0xd3uy; 0x7fuy; 0x1buy; 0x81uy; 0x22uy; 0xf7uy; 0x98uy; 0x60uy; 0x0auy; 0x64uy; 0xa6uy; 0xc1uy;
0xf6uy; 0x49uy; 0xc7uy; 0xe3uy; 0x07uy; 0x4duy; 0x94uy; 0x7auy; 0xcfuy; 0x6euy; 0x68uy; 0x0cuy;
0x1buy; 0x3fuy; 0x6euy; 0x2euy; 0xeeuy; 0x92uy; 0xfauy; 0x52uy; 0xb3uy; 0x59uy; 0xf8uy; 0xf1uy;
0x8fuy; 0x6auy; 0x66uy; 0xa3uy; 0x82uy; 0x76uy; 0x4auy; 0x07uy; 0x1auy; 0xc7uy; 0xdduy; 0xf5uy;
0xdauy; 0x9cuy; 0x3cuy; 0x24uy; 0xbfuy; 0xfduy; 0x42uy; 0xa1uy; 0x10uy; 0x64uy; 0x6auy; 0x0fuy;
0x89uy; 0xeeuy; 0x36uy; 0xa5uy; 0xceuy; 0x99uy; 0x48uy; 0x6auy; 0xf0uy; 0x9fuy; 0x9euy; 0x69uy;
0xa4uy; 0x40uy; 0x20uy; 0xe9uy; 0x16uy; 0x15uy; 0xf7uy; 0xdbuy; 0x75uy; 0x02uy; 0xcbuy; 0xe9uy;
0x73uy; 0x8buy; 0x3buy; 0x49uy; 0x2fuy; 0xf0uy; 0xafuy; 0x51uy; 0x06uy; 0x5cuy; 0xdfuy; 0x27uy;
0x27uy; 0x49uy; 0x6auy; 0xd1uy; 0xccuy; 0xc7uy; 0xb5uy; 0x63uy; 0xb5uy; 0xfcuy; 0xb8uy; 0x5cuy;
0x87uy; 0x7fuy; 0x84uy; 0xb4uy; 0xccuy; 0x14uy; 0xa9uy; 0x53uy; 0xdauy; 0xa4uy; 0x56uy; 0xf8uy;
0xb6uy; 0x1buy; 0xccuy; 0x40uy; 0x27uy; 0x52uy; 0x06uy; 0x5auy; 0x13uy; 0x81uy; 0xd7uy; 0x3auy;
0xd4uy; 0x3buy; 0xfbuy; 0x49uy; 0x65uy; 0x31uy; 0x33uy; 0xb2uy; 0xfauy; 0xcduy; 0xaduy; 0x58uy;
0x4euy; 0x2buy; 0xaeuy; 0xd2uy; 0x20uy; 0xfbuy; 0x1auy; 0x48uy; 0xb4uy; 0x3fuy; 0x9auy; 0xd8uy;
0x7auy; 0x35uy; 0x4auy; 0xc8uy; 0xeeuy; 0x88uy; 0x5euy; 0x07uy; 0x66uy; 0x54uy; 0xb9uy; 0xecuy;
0x9fuy; 0xa3uy; 0xe3uy; 0xb9uy; 0x37uy; 0xaauy; 0x49uy; 0x76uy; 0x31uy; 0xdauy; 0x74uy; 0x2duy;
0x3cuy; 0xa4uy; 0x65uy; 0x10uy; 0x32uy; 0x38uy; 0xf0uy; 0xdeuy; 0xd3uy; 0x99uy; 0x17uy; 0xaauy;
0x71uy; 0xaauy; 0x8fuy; 0x0fuy; 0x8cuy; 0xafuy; 0xa2uy; 0xf8uy; 0x5duy; 0x64uy; 0xbauy; 0x1duy;
0xa3uy; 0xefuy; 0x96uy; 0x73uy; 0xe8uy; 0xa1uy; 0x02uy; 0x8duy; 0x0cuy; 0x6duy; 0xb8uy; 0x06uy;
0x90uy; 0xb8uy; 0x08uy; 0x56uy; 0x2cuy; 0xa7uy; 0x06uy; 0xc9uy; 0xc2uy; 0x38uy; 0xdbuy; 0x7cuy;
0x63uy; 0xb1uy; 0x57uy; 0x8euy; 0xeauy; 0x7cuy; 0x79uy; 0xf3uy; 0x49uy; 0x1duy; 0xfeuy; 0x9fuy;
0xf3uy; 0x6euy; 0xb1uy; 0x1duy; 0xbauy; 0x19uy; 0x80uy; 0x1auy; 0x0auy; 0xd3uy; 0xb0uy; 0x26uy;
0x21uy; 0x40uy; 0xb1uy; 0x7cuy; 0xf9uy; 0x4duy; 0x8duy; 0x10uy; 0xc1uy; 0x7euy; 0xf4uy; 0xf6uy;
0x3cuy; 0xa8uy; 0xfduy; 0x7cuy; 0xa3uy; 0x92uy; 0xb2uy; 0x0fuy; 0xaauy; 0xccuy; 0xa6uy; 0x11uy;
0xfeuy; 0x04uy; 0xe3uy; 0xd1uy; 0x7auy; 0x32uy; 0x89uy; 0xdfuy; 0x0duy; 0xc4uy; 0x8fuy; 0x79uy;
0x6buy; 0xcauy; 0x16uy; 0x7cuy; 0x6euy; 0xf9uy; 0xaduy; 0x0fuy; 0xf6uy; 0xfeuy; 0x27uy; 0xdbuy;
0xc4uy; 0x13uy; 0x70uy; 0xf1uy; 0x62uy; 0x1auy; 0x4fuy; 0x79uy; 0x40uy; 0xc9uy; 0x9buy; 0x8buy;
0x21uy; 0xeauy; 0x84uy; 0xfauy; 0xf5uy; 0xf1uy; 0x89uy; 0xceuy; 0xb7uy; 0x55uy; 0x0auy; 0x80uy;
0x39uy; 0x2fuy; 0x55uy; 0x36uy; 0x16uy; 0x9cuy; 0x7buy; 0x08uy; 0xbduy; 0x87uy; 0x0duy; 0xa5uy;
0x32uy; 0xf1uy; 0x52uy; 0x7cuy; 0xe8uy; 0x55uy; 0x60uy; 0x5buy; 0xd7uy; 0x69uy; 0xe4uy; 0xfcuy;
0xfauy; 0x12uy; 0x85uy; 0x96uy; 0xeauy; 0x50uy; 0x28uy; 0xabuy; 0x8auy; 0xf7uy; 0xbbuy; 0x0euy;
0x53uy; 0x74uy; 0xcauy; 0xa6uy; 0x27uy; 0x09uy; 0xc2uy; 0xb5uy; 0xdeuy; 0x18uy; 0x14uy; 0xd9uy;
0xeauy; 0xe5uy; 0x29uy; 0x1cuy; 0x40uy; 0x56uy; 0xcfuy; 0xd7uy; 0xaeuy; 0x05uy; 0x3fuy; 0x65uy;
0xafuy; 0x05uy; 0x73uy; 0xe2uy; 0x35uy; 0x96uy; 0x27uy; 0x07uy; 0x14uy; 0xc0uy; 0xaduy; 0x33uy;
0xf1uy; 0xdcuy; 0x44uy; 0x7auy; 0x89uy; 0x17uy; 0x77uy; 0xd2uy; 0x9cuy; 0x58uy; 0x60uy; 0xf0uy;
0x3fuy; 0x7buy; 0x2duy; 0x2euy; 0x57uy; 0x95uy; 0x54uy; 0x87uy; 0xeduy; 0xf2uy; 0xc7uy; 0x4cuy;
0xf0uy; 0xaeuy; 0x56uy; 0x29uy; 0x19uy; 0x7duy; 0x66uy; 0x4buy; 0x9buy; 0x83uy; 0x84uy; 0x42uy;
0x3buy; 0x01uy; 0x25uy; 0x66uy; 0x8euy; 0x02uy; 0xdeuy; 0xb9uy; 0x83uy; 0x54uy; 0x19uy; 0xf6uy;
0x9fuy; 0x79uy; 0x0duy; 0x67uy; 0xc5uy; 0x1duy; 0x7auy; 0x44uy; 0x02uy; 0x98uy; 0xa7uy; 0x16uy;
0x1cuy; 0x29uy; 0x0duy; 0x74uy; 0xffuy; 0x85uy; 0x40uy; 0x06uy; 0xefuy; 0x2cuy; 0xa9uy; 0xc6uy;
0xf5uy; 0x53uy; 0x07uy; 0x06uy; 0xaeuy; 0xe4uy; 0xfauy; 0x5fuy; 0xd8uy; 0x39uy; 0x4duy; 0xf1uy;
0x9buy; 0x6buy; 0xd9uy; 0x24uy; 0x84uy; 0xfeuy; 0x03uy; 0x4cuy; 0xb2uy; 0x3fuy; 0xdfuy; 0xa1uy;
0x05uy; 0x9euy; 0x50uy; 0x14uy; 0x5auy; 0xd9uy; 0x1auy; 0xa2uy; 0xa7uy; 0xfauy; 0xfauy; 0x17uy;
0xf7uy; 0x78uy; 0xd6uy; 0xb5uy; 0x92uy; 0x61uy; 0x91uy; 0xacuy; 0x36uy; 0xfauy; 0x56uy; 0x0duy;
0x38uy; 0x32uy; 0x18uy; 0x85uy; 0x08uy; 0x58uy; 0x37uy; 0xf0uy; 0x4buy; 0xdbuy; 0x59uy; 0xe7uy;
0xa4uy; 0x34uy; 0xc0uy; 0x1buy; 0x01uy; 0xafuy; 0x2duy; 0xdeuy; 0xa1uy; 0xaauy; 0x5duy; 0xd3uy;
0xecuy; 0xe1uy; 0xd4uy; 0xf7uy; 0xe6uy; 0x54uy; 0x68uy; 0xf0uy; 0x51uy; 0x97uy; 0xa7uy; 0x89uy;
0xeauy; 0x24uy; 0xaduy; 0xd3uy; 0x6euy; 0x47uy; 0x93uy; 0x8buy; 0x4buy; 0xb4uy; 0xf7uy; 0x1cuy;
0x42uy; 0x06uy; 0x67uy; 0xe8uy; 0x99uy; 0xf6uy; 0xf5uy; 0x7buy; 0x85uy; 0xb5uy; 0x65uy; 0xb5uy;
0xb5uy; 0xd2uy; 0x37uy; 0xf5uy; 0xf3uy; 0x02uy; 0xa6uy; 0x4duy; 0x11uy; 0xa7uy; 0xdcuy; 0x51uy;
0x09uy; 0x7fuy; 0xa0uy; 0xd8uy; 0x88uy; 0x1cuy; 0x13uy; 0x71uy; 0xaeuy; 0x9cuy; 0xb7uy; 0x7buy;
0x34uy; 0xd6uy; 0x4euy; 0x68uy; 0x26uy; 0x83uy; 0x51uy; 0xafuy; 0x1duy; 0xeeuy; 0x8buy; 0xbbuy;
0x69uy; 0x43uy; 0x2buy; 0x9euy; 0x8auy; 0xbcuy; 0x02uy; 0x0euy; 0xa0uy; 0x1buy; 0xe0uy; 0xa8uy;
0x5fuy; 0x6fuy; 0xafuy; 0x1buy; 0x8fuy; 0xe7uy; 0x64uy; 0x71uy; 0x74uy; 0x11uy; 0x7euy; 0xa8uy;
0xd8uy; 0xf9uy; 0x97uy; 0x06uy; 0xc3uy; 0xb6uy; 0xfbuy; 0xfbuy; 0xb7uy; 0x3duy; 0x35uy; 0x9duy;
0x3buy; 0x52uy; 0xeduy; 0x54uy; 0xcauy; 0xf4uy; 0x81uy; 0x01uy; 0x2duy; 0x1buy; 0xc3uy; 0xa7uy;
0x00uy; 0x3duy; 0x1auy; 0x39uy; 0x54uy; 0xe1uy; 0xf6uy; 0xffuy; 0xeduy; 0x6fuy; 0x0buy; 0x5auy;
0x68uy; 0xdauy; 0x58uy; 0xdduy; 0xa9uy; 0xcfuy; 0x5cuy; 0x4auy; 0xe5uy; 0x09uy; 0x4euy; 0xdeuy;
0x9duy; 0xbcuy; 0x3euy; 0xeeuy; 0x5auy; 0x00uy; 0x3buy; 0x2cuy; 0x87uy; 0x10uy; 0x65uy; 0x60uy;
0xdduy; 0xd7uy; 0x56uy; 0xd1uy; 0x4cuy; 0x64uy; 0x45uy; 0xe4uy; 0x21uy; 0xecuy; 0x78uy; 0xf8uy;
0x25uy; 0x7auy; 0x3euy; 0x16uy; 0x5duy; 0x09uy; 0x53uy; 0x14uy; 0xbeuy; 0x4fuy; 0xaeuy; 0x87uy;
0xd8uy; 0xd1uy; 0xaauy; 0x3cuy; 0xf6uy; 0x3euy; 0xa4uy; 0x70uy; 0x8cuy; 0x5euy; 0x70uy; 0xa4uy;
0xb3uy; 0x6buy; 0x66uy; 0x73uy; 0xd3uy; 0xbfuy; 0x31uy; 0x06uy; 0x19uy; 0x62uy; 0x93uy; 0x15uy;
0xf2uy; 0x86uy; 0xe4uy; 0x52uy; 0x7euy; 0x53uy; 0x4cuy; 0x12uy; 0x38uy; 0xccuy; 0x34uy; 0x7duy;
0x57uy; 0xf6uy; 0x42uy; 0x93uy; 0x8auy; 0xc4uy; 0xeeuy; 0x5cuy; 0x8auy; 0xe1uy; 0x52uy; 0x8fuy;
0x56uy; 0x64uy; 0xf6uy; 0xa6uy; 0xd1uy; 0x91uy; 0x57uy; 0x70uy; 0xcduy; 0x11uy; 0x76uy; 0xf5uy;
0x59uy; 0x60uy; 0x60uy; 0x3cuy; 0xc1uy; 0xc3uy; 0x0buy; 0x7fuy; 0x58uy; 0x1auy; 0x50uy; 0x91uy;
0xf1uy; 0x68uy; 0x8fuy; 0x6euy; 0x74uy; 0x74uy; 0xa8uy; 0x51uy; 0x0buy; 0xf7uy; 0x7auy; 0x98uy;
0x37uy; 0xf2uy; 0x0auy; 0x0euy; 0xa4uy; 0x97uy; 0x04uy; 0xb8uy; 0x9buy; 0xfduy; 0xa0uy; 0xeauy;
0xf7uy; 0x0duy; 0xe1uy; 0xdbuy; 0x03uy; 0xf0uy; 0x31uy; 0x29uy; 0xf8uy; 0xdduy; 0x6buy; 0x8buy;
0x5duy; 0xd8uy; 0x59uy; 0xa9uy; 0x29uy; 0xcfuy; 0x9auy; 0x79uy; 0x89uy; 0x19uy; 0x63uy; 0x46uy;
0x09uy; 0x79uy; 0x6auy; 0x11uy; 0xdauy; 0x63uy; 0x68uy; 0x48uy; 0x77uy; 0x23uy; 0xfbuy; 0x7duy;
0x3auy; 0x43uy; 0xcbuy; 0x02uy; 0x3buy; 0x7auy; 0x6duy; 0x10uy; 0x2auy; 0x9euy; 0xacuy; 0xf1uy;
0xd4uy; 0x19uy; 0xf8uy; 0x23uy; 0x64uy; 0x1duy; 0x2cuy; 0x5fuy; 0xf2uy; 0xb0uy; 0x5cuy; 0x23uy;
0x27uy; 0xf7uy; 0x27uy; 0x30uy; 0x16uy; 0x37uy; 0xb1uy; 0x90uy; 0xabuy; 0x38uy; 0xfbuy; 0x55uy;
0xcduy; 0x78uy; 0x58uy; 0xd4uy; 0x7duy; 0x43uy; 0xf6uy; 0x45uy; 0x5euy; 0x55uy; 0x8duy; 0xb1uy;
0x02uy; 0x65uy; 0x58uy; 0xb4uy; 0x13uy; 0x4buy; 0x36uy; 0xf7uy; 0xccuy; 0xfeuy; 0x3duy; 0x0buy;
0x82uy; 0xe2uy; 0x12uy; 0x11uy; 0xbbuy; 0xe6uy; 0xb8uy; 0x3auy; 0x48uy; 0x71uy; 0xc7uy; 0x50uy;
0x06uy; 0x16uy; 0x3auy; 0xe6uy; 0x7cuy; 0x05uy; 0xc7uy; 0xc8uy; 0x4duy; 0x2fuy; 0x08uy; 0x6auy;
0x17uy; 0x9auy; 0x95uy; 0x97uy; 0x50uy; 0x68uy; 0xdcuy; 0x28uy; 0x18uy; 0xc4uy; 0x61uy; 0x38uy;
0xb9uy; 0xe0uy; 0x3euy; 0x78uy; 0xdbuy; 0x29uy; 0xe0uy; 0x9fuy; 0x52uy; 0xdduy; 0xf8uy; 0x4fuy;
0x91uy; 0xc1uy; 0xd0uy; 0x33uy; 0xa1uy; 0x7auy; 0x8euy; 0x30uy; 0x13uy; 0x82uy; 0x07uy; 0x9fuy;
0xd3uy; 0x31uy; 0x0fuy; 0x23uy; 0xbeuy; 0x32uy; 0x5auy; 0x75uy; 0xcfuy; 0x96uy; 0xb2uy; 0xecuy;
0xb5uy; 0x32uy; 0xacuy; 0x21uy; 0xd1uy; 0x82uy; 0x33uy; 0xd3uy; 0x15uy; 0x74uy; 0xbduy; 0x90uy;
0xf1uy; 0x2cuy; 0xe6uy; 0x5fuy; 0x8duy; 0xe3uy; 0x02uy; 0xe8uy; 0xe9uy; 0xc4uy; 0xcauy; 0x96uy;
0xebuy; 0x0euy; 0xbcuy; 0x91uy; 0xf4uy; 0xb9uy; 0xeauy; 0xd9uy; 0x1buy; 0x75uy; 0xbduy; 0xe1uy;
0xacuy; 0x2auy; 0x05uy; 0x37uy; 0x52uy; 0x9buy; 0x1buy; 0x3fuy; 0x5auy; 0xdcuy; 0x21uy; 0xc3uy;
0x98uy; 0xbbuy; 0xafuy; 0xa3uy; 0xf2uy; 0x00uy; 0xbfuy; 0x0duy; 0x30uy; 0x89uy; 0x05uy; 0xccuy;
0xa5uy; 0x76uy; 0xf5uy; 0x06uy; 0xf0uy; 0xc6uy; 0x54uy; 0x8auy; 0x5duy; 0xd4uy; 0x1euy; 0xc1uy;
0xf2uy; 0xceuy; 0xb0uy; 0x62uy; 0xc8uy; 0xfcuy; 0x59uy; 0x42uy; 0x9auy; 0x90uy; 0x60uy; 0x55uy;
0xfeuy; 0x88uy; 0xa5uy; 0x8buy; 0xb8uy; 0x33uy; 0x0cuy; 0x23uy; 0x24uy; 0x0duy; 0x15uy; 0x70uy;
0x37uy; 0x1euy; 0x3duy; 0xf6uy; 0xd2uy; 0xeauy; 0x92uy; 0x10uy; 0xb2uy; 0xc4uy; 0x51uy; 0xacuy;
0xf2uy; 0xacuy; 0xf3uy; 0x6buy; 0x6cuy; 0xaauy; 0xcfuy; 0x12uy; 0xc5uy; 0x6cuy; 0x90uy; 0x50uy;
0xb5uy; 0x0cuy; 0xfcuy; 0x1auy; 0x15uy; 0x52uy; 0xe9uy; 0x26uy; 0xc6uy; 0x52uy; 0xa4uy; 0xe7uy;
0x81uy; 0x69uy; 0xe1uy; 0xe7uy; 0x9euy; 0x30uy; 0x01uy; 0xecuy; 0x84uy; 0x89uy; 0xb2uy; 0x0duy;
0x66uy; 0xdduy; 0xceuy; 0x28uy; 0x5cuy; 0xecuy; 0x98uy; 0x46uy; 0x68uy; 0x21uy; 0x9fuy; 0x88uy;
0x3fuy; 0x1fuy; 0x42uy; 0x77uy; 0xceuy; 0xd0uy; 0x61uy; 0xd4uy; 0x20uy; 0xa7uy; 0xffuy; 0x53uy;
0xaduy; 0x37uy; 0xd0uy; 0x17uy; 0x35uy; 0xc9uy; 0xfcuy; 0xbauy; 0x0auy; 0x78uy; 0x3fuy; 0xf2uy;
0xccuy; 0x86uy; 0x89uy; 0xe8uy; 0x4buy; 0x3cuy; 0x48uy; 0x33uy; 0x09uy; 0x7fuy; 0xc6uy; 0xc0uy;
0xdduy; 0xb8uy; 0xfduy; 0x7auy; 0x66uy; 0x66uy; 0x65uy; 0xebuy; 0x47uy; 0xa7uy; 0x04uy; 0x28uy;
0xa3uy; 0x19uy; 0x8euy; 0xa9uy; 0xb1uy; 0x13uy; 0x67uy; 0x62uy; 0x70uy; 0xcfuy; 0xd6uy
]
in
assert_norm (List.Tot.length l = 2027);
B.gcmalloc_of_list HyperStack.root l | false |
Vale.X64.InsStack.fsti | Vale.X64.InsStack.va_quick_PopXmm_Secret | val va_quick_PopXmm_Secret (dst: va_operand_xmm) (tmp: va_operand_reg_opr64) (expected_xmm: quad32)
: (va_quickCode unit (va_code_PopXmm_Secret dst tmp)) | val va_quick_PopXmm_Secret (dst: va_operand_xmm) (tmp: va_operand_reg_opr64) (expected_xmm: quad32)
: (va_quickCode unit (va_code_PopXmm_Secret dst tmp)) | let va_quick_PopXmm_Secret (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32) :
(va_quickCode unit (va_code_PopXmm_Secret dst tmp)) =
(va_QProc (va_code_PopXmm_Secret dst tmp) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64
tmp; va_mod_xmm dst]) (va_wp_PopXmm_Secret dst tmp expected_xmm) (va_wpProof_PopXmm_Secret dst
tmp expected_xmm)) | {
"file_name": "obj/Vale.X64.InsStack.fsti",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 22,
"end_line": 486,
"start_col": 0,
"start_line": 482
} | module Vale.X64.InsStack
open Vale.Def.Words_s
open Vale.Def.Words.Seq_s
open Vale.Def.Words.Two_s
open Vale.Def.Words.Four_s
open Vale.Def.Types_s
open Vale.Arch.Types
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.Stack_i
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.QuickCode
open Vale.X64.InsBasic
open Vale.X64.InsVector
open Vale.X64.CPU_Features_s
//-- Stack_lemma
val va_code_Stack_lemma : va_dummy:unit -> Tot va_code
val va_codegen_success_Stack_lemma : va_dummy:unit -> Tot va_pbool
val va_lemma_Stack_lemma : va_b0:va_code -> va_s0:va_state -> base:operand64 -> offset:int ->
t:taint
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Stack_lemma ()) 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_state_eq va_sM (va_update_ok va_sM va_s0)))
[@ va_qattr]
let va_wp_Stack_lemma (base:operand64) (offset:int) (t:taint) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let va_sM = va_s0 in va_get_ok va_sM ==> va_k va_sM (())))
val va_wpProof_Stack_lemma : base:operand64 -> offset:int -> t:taint -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Stack_lemma base offset t va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Stack_lemma ()) ([]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Stack_lemma (base:operand64) (offset:int) (t:taint) : (va_quickCode unit
(va_code_Stack_lemma ())) =
(va_QProc (va_code_Stack_lemma ()) ([]) (va_wp_Stack_lemma base offset t) (va_wpProof_Stack_lemma
base offset t))
//--
//-- Pop
val va_code_Pop : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0 /\
va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack
va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64
rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop dst)) =
(va_QProc (va_code_Pop dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) (va_wp_Pop
dst) (va_wpProof_Pop dst))
//--
//-- Push
val va_code_Push : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push src) va_s0 /\ va_is_src_reg_opr64 src va_s0 /\
va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Public (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push src)) =
(va_QProc (va_code_Push src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp]) (va_wp_Push
src) (va_wpProof_Push src))
//--
//-- Pop_Secret
val va_code_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_code
val va_codegen_success_Pop_Secret : dst:va_operand_dst_opr64 -> Tot va_pbool
val va_lemma_Pop_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Pop_Secret dst) va_s0 /\ va_is_dst_dst_opr64 dst va_s0
/\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret
(va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM
(va_update_ok va_sM (va_update_operand_dst_opr64 dst va_sM va_s0))))))
[@ va_qattr]
let va_wp_Pop_Secret (dst:va_operand_dst_opr64) (va_s0:va_state) (va_k:(va_state -> unit -> Type0))
: Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_get_ok va_s0 /\ Vale.X64.Stack_i.valid_src_stack64
(va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\ Vale.X64.Stack_i.valid_taint_stack64
(va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0) /\ va_get_reg64 rRsp va_s0 >=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\ va_get_reg64 rRsp va_s0 + 8 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall (va_x_dst:va_value_dst_opr64)
(va_x_rsp:nat64) (va_x_stack:vale_stack) . let va_sM = va_upd_stack va_x_stack (va_upd_reg64
rRsp va_x_rsp (va_upd_operand_dst_opr64 dst va_x_dst va_s0)) in va_get_ok va_sM /\
va_eval_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0)
(va_get_stack va_s0) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 8 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 8) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_Pop_Secret : dst:va_operand_dst_opr64 -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Pop_Secret dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Pop_Secret dst) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Pop_Secret (dst:va_operand_dst_opr64) : (va_quickCode unit (va_code_Pop_Secret dst)) =
(va_QProc (va_code_Pop_Secret dst) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_dst_opr64 dst])
(va_wp_Pop_Secret dst) (va_wpProof_Pop_Secret dst))
//--
//-- Push_Secret
val va_code_Push_Secret : src:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_Push_Secret : src:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_Push_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Push_Secret src) va_s0 /\ va_is_src_reg_opr64 src
va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) /\ va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_reg64 rRsp va_sM (va_update_ok
va_sM va_s0))))))
[@ va_qattr]
let va_wp_Push_Secret (src:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state -> unit ->
Type0)) : Type0 =
(va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 8 /\ (forall (va_x_rsp:nat64)
(va_x_stack:vale_stack) (va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint
va_x_stackTaint (va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp va_s0)) in va_get_ok va_sM
/\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 8 /\ va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_sM) (va_eval_reg_opr64 va_s0 src)
(va_get_stack va_s0) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_sM) Secret (va_get_stackTaint va_s0) ==> va_k va_sM (())))
val va_wpProof_Push_Secret : src:va_operand_reg_opr64 -> va_s0:va_state -> va_k:(va_state -> unit
-> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Push_Secret src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Push_Secret src) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Push_Secret (src:va_operand_reg_opr64) : (va_quickCode unit (va_code_Push_Secret src))
=
(va_QProc (va_code_Push_Secret src) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp])
(va_wp_Push_Secret src) (va_wpProof_Push_Secret src))
//--
//-- Load64_stack
val va_code_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
Tot va_code
val va_codegen_success_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 ->
offset:int -> Tot va_pbool
val va_lemma_Load64_stack : va_b0:va_code -> va_s0:va_state -> dst:va_operand_dst_opr64 ->
src:va_operand_reg_opr64 -> offset:int
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load64_stack dst src offset) va_s0 /\
va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint 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_dst_opr64 va_sM dst == Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src +
offset) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_dst_opr64 dst va_sM va_s0))))
[@ va_qattr]
let va_wp_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_dst_opr64 dst va_s0 /\ va_is_src_reg_opr64 src va_s0 /\ va_get_ok va_s0 /\
Vale.X64.Stack_i.valid_src_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_eval_reg_opr64 va_s0 src + offset) Public
(va_get_stackTaint va_s0) /\ (forall (va_x_dst:va_value_dst_opr64) . let va_sM =
va_upd_operand_dst_opr64 dst va_x_dst va_s0 in va_get_ok va_sM /\ va_eval_dst_opr64 va_sM dst
== Vale.X64.Stack_i.load_stack64 (va_eval_reg_opr64 va_s0 src + offset) (va_get_stack va_s0)
==> va_k va_sM (())))
val va_wpProof_Load64_stack : dst:va_operand_dst_opr64 -> src:va_operand_reg_opr64 -> offset:int ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load64_stack dst src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load64_stack dst src offset)
([va_mod_dst_opr64 dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_Load64_stack (dst:va_operand_dst_opr64) (src:va_operand_reg_opr64) (offset:int) :
(va_quickCode unit (va_code_Load64_stack dst src offset)) =
(va_QProc (va_code_Load64_stack dst src offset) ([va_mod_dst_opr64 dst]) (va_wp_Load64_stack dst
src offset) (va_wpProof_Load64_stack dst src offset))
//--
//-- PushXmm
val va_code_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PushXmm : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm src tmp) va_s0 /\ va_is_src_xmm src va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp va_s0 <=
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp (va_get_stack
va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Public (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Public (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Public
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm src tmp) ([va_Mod_stackTaint;
va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm src tmp)) =
(va_QProc (va_code_PushXmm src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm src tmp) (va_wpProof_PushXmm src tmp))
//--
//-- PopXmm
val va_code_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_pbool
val va_lemma_PopXmm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm dst tmp) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))))
[@ va_qattr]
let va_wp_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Public (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Public (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_PopXmm : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> expected_xmm:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PopXmm dst tmp expected_xmm va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PopXmm dst tmp) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PopXmm (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32) :
(va_quickCode unit (va_code_PopXmm dst tmp)) =
(va_QProc (va_code_PopXmm dst tmp) ([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp;
va_mod_xmm dst]) (va_wp_PopXmm dst tmp expected_xmm) (va_wpProof_PopXmm dst tmp expected_xmm))
//--
//-- PushXmm_Secret
val va_code_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_PushXmm_Secret : va_b0:va_code -> va_s0:va_state -> src:va_operand_xmm ->
tmp:va_operand_reg_opr64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PushXmm_Secret src tmp) va_s0 /\ va_is_src_xmm src
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ va_get_reg64 rRsp
va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ Vale.X64.Stack_i.init_rsp
(va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi = Vale.Arch.Types.hi64
(va_eval_xmm va_sM src) in va_get_stack va_sM == Vale.X64.Stack_i.store_stack64 (va_get_reg64
rRsp va_s0 - 16) src_hi (Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo
(va_get_stack va_s0)) /\ va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64
(va_get_reg64 rRsp va_s0 - 16) Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp
va_s0 - 8) Secret (va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp
va_s0 - 16) /\ va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
va_s0)))))))
[@ va_qattr]
let va_wp_PushXmm_Secret (src:va_operand_xmm) (tmp:va_operand_reg_opr64) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_src_xmm src va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
va_get_reg64 rRsp va_s0 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\
Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 <= va_get_reg64 rRsp va_s0 - 16 /\
(forall (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
(va_x_stackTaint:memtaint) . let va_sM = va_upd_stackTaint va_x_stackTaint (va_upd_stack
va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp va_x_tmp va_s0))) in
va_get_ok va_sM /\ (let src_lo = Vale.Arch.Types.lo64 (va_eval_xmm va_sM src) in let src_hi =
Vale.Arch.Types.hi64 (va_eval_xmm va_sM src) in va_get_stack va_sM ==
Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 16) src_hi
(Vale.X64.Stack_i.store_stack64 (va_get_reg64 rRsp va_s0 - 8) src_lo (va_get_stack va_s0)) /\
va_get_stackTaint va_sM == Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 16)
Secret (Vale.X64.Stack_i.store_taint_stack64 (va_get_reg64 rRsp va_s0 - 8) Secret
(va_get_stackTaint va_s0)) /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 - 16) ==> va_k
va_sM (())))
val va_wpProof_PushXmm_Secret : src:va_operand_xmm -> tmp:va_operand_reg_opr64 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PushXmm_Secret src tmp va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PushXmm_Secret src tmp)
([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp]) va_s0 va_k
((va_sM, va_f0, va_g))))
[@ "opaque_to_smt" va_qattr]
let va_quick_PushXmm_Secret (src:va_operand_xmm) (tmp:va_operand_reg_opr64) : (va_quickCode unit
(va_code_PushXmm_Secret src tmp)) =
(va_QProc (va_code_PushXmm_Secret src tmp) ([va_Mod_stackTaint; va_Mod_stack; va_Mod_reg64 rRsp;
va_mod_reg_opr64 tmp]) (va_wp_PushXmm_Secret src tmp) (va_wpProof_PushXmm_Secret src tmp))
//--
//-- PopXmm_Secret
val va_code_PopXmm_Secret : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot va_code
val va_codegen_success_PopXmm_Secret : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 -> Tot
va_pbool
val va_lemma_PopXmm_Secret : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm ->
tmp:va_operand_reg_opr64 -> expected_xmm:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_PopXmm_Secret dst tmp) va_s0 /\ va_is_dst_xmm dst
va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Secret (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack 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_xmm va_sM dst == expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 +
16 /\ va_get_stack va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16)
(va_get_reg64 rRsp va_sM) (va_get_stack va_s0) /\ va_state_eq va_sM (va_update_stack va_sM
(va_update_reg64 rRsp va_sM (va_update_ok va_sM (va_update_operand_reg_opr64 tmp va_sM
(va_update_operand_xmm dst va_sM va_s0)))))))
[@ va_qattr]
let va_wp_PopXmm_Secret (dst:va_operand_xmm) (tmp:va_operand_reg_opr64) (expected_xmm:quad32)
(va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_is_dst_xmm dst va_s0 /\ va_is_dst_reg_opr64 tmp va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_src_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0) Secret (va_get_stackTaint va_s0)
/\ Vale.X64.Stack_i.valid_taint_stack64 (va_get_reg64 rRsp va_s0 + 8) Secret (va_get_stackTaint
va_s0) /\ Vale.Arch.Types.hi64 expected_xmm == Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp
va_s0) (va_get_stack va_s0) /\ Vale.Arch.Types.lo64 expected_xmm ==
Vale.X64.Stack_i.load_stack64 (va_get_reg64 rRsp va_s0 + 8) (va_get_stack va_s0) /\
va_get_reg64 rRsp va_s0 >= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) - 4096 /\
va_get_reg64 rRsp va_s0 + 16 <= Vale.X64.Stack_i.init_rsp (va_get_stack va_s0) /\ (forall
(va_x_dst:va_value_xmm) (va_x_tmp:va_value_reg_opr64) (va_x_rsp:nat64) (va_x_stack:vale_stack)
. let va_sM = va_upd_stack va_x_stack (va_upd_reg64 rRsp va_x_rsp (va_upd_operand_reg_opr64 tmp
va_x_tmp (va_upd_operand_xmm dst va_x_dst va_s0))) in va_get_ok va_sM /\ va_eval_xmm va_sM dst
== expected_xmm /\ va_get_reg64 rRsp va_sM == va_get_reg64 rRsp va_s0 + 16 /\ va_get_stack
va_sM == Vale.X64.Stack_i.free_stack64 (va_get_reg64 rRsp va_sM - 16) (va_get_reg64 rRsp va_sM)
(va_get_stack va_s0) ==> va_k va_sM (())))
val va_wpProof_PopXmm_Secret : dst:va_operand_xmm -> tmp:va_operand_reg_opr64 ->
expected_xmm:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_PopXmm_Secret dst tmp expected_xmm va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_PopXmm_Secret dst tmp) ([va_Mod_stack;
va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Words.Two_s.fsti.checked",
"Vale.Def.Words.Seq_s.fsti.checked",
"Vale.Def.Words.Four_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Arch.Types.fsti.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.X64.InsStack.fsti"
} | [
{
"abbrev": false,
"full_module": "Vale.X64.Taint_Semantics",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.X64.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "S"
},
{
"abbrev": true,
"full_module": "Vale.X64.Bytes_Code_s",
"short_module": "BC"
},
{
"abbrev": true,
"full_module": "Vale.X64.Instructions_s",
"short_module": "I"
},
{
"abbrev": false,
"full_module": "Vale.X64.InsLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Four_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Two_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
dst: Vale.X64.Decls.va_operand_xmm ->
tmp: Vale.X64.Decls.va_operand_reg_opr64 ->
expected_xmm: Vale.X64.Decls.quad32
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.X64.InsStack.va_code_PopXmm_Secret dst tmp) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_operand_reg_opr64",
"Vale.X64.Decls.quad32",
"Vale.X64.QuickCode.va_QProc",
"Prims.unit",
"Vale.X64.InsStack.va_code_PopXmm_Secret",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_stack",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.QuickCode.va_mod_reg_opr64",
"Vale.X64.QuickCode.va_mod_xmm",
"Prims.Nil",
"Vale.X64.InsStack.va_wp_PopXmm_Secret",
"Vale.X64.InsStack.va_wpProof_PopXmm_Secret",
"Vale.X64.QuickCode.va_quickCode"
] | [] | false | false | false | false | false | let va_quick_PopXmm_Secret (dst: va_operand_xmm) (tmp: va_operand_reg_opr64) (expected_xmm: quad32)
: (va_quickCode unit (va_code_PopXmm_Secret dst tmp)) =
| (va_QProc (va_code_PopXmm_Secret dst tmp)
([va_Mod_stack; va_Mod_reg64 rRsp; va_mod_reg_opr64 tmp; va_mod_xmm dst])
(va_wp_PopXmm_Secret dst tmp expected_xmm)
(va_wpProof_PopXmm_Secret dst tmp expected_xmm)) | false |
Hacl.Impl.RSAPSS.Keys.fst | Hacl.Impl.RSAPSS.Keys.rsapss_load_pkey | val rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
rsapss_load_pkey_st t ke modBits | val rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
rsapss_load_pkey_st t ke modBits | let rsapss_load_pkey #t ke modBits kc eBits nb eb pkey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
assert (v ((modBits -! 1ul) /. bits) < v nLen);
LS.blocks_bits_lemma t (v modBits);
assert (v (blocks nbLen numb) == v nLen);
LS.blocks_bits_lemma t (v eBits);
assert (v (blocks ebLen numb) == v eLen);
let n = sub pkey 0ul nLen in
let r2 = sub pkey nLen nLen in
let e = sub pkey (nLen +! nLen) eLen in
BN.bn_from_bytes_be nbLen nb n;
ke.BE.precompr2 (modBits -! 1ul) n r2;
BN.bn_from_bytes_be ebLen eb e;
let h1 = ST.get () in
LSeq.lemma_concat3 (v nLen) (as_seq h1 n)
(v nLen) (as_seq h1 r2) (v eLen) (as_seq h1 e) (as_seq h1 pkey);
let m0 = kc.check_modulus modBits n in
let m1 = kc.check_exponent eBits e in
let m = m0 &. m1 in
BB.unsafe_bool_of_limb #t m | {
"file_name": "code/rsapss/Hacl.Impl.RSAPSS.Keys.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 29,
"end_line": 237,
"start_col": 0,
"start_line": 206
} | module Hacl.Impl.RSAPSS.Keys
open FStar.HyperStack
open FStar.HyperStack.ST
open FStar.Mul
open Lib.IntTypes
open Lib.Buffer
open Hacl.Bignum.Definitions
module ST = FStar.HyperStack.ST
module B = LowStar.Buffer
module HS = FStar.HyperStack
module LSeq = Lib.Sequence
module LS = Hacl.Spec.RSAPSS
module BM = Hacl.Bignum.Montgomery
module BN = Hacl.Bignum
module BB = Hacl.Spec.Bignum.Base
module BE = Hacl.Bignum.Exponentiation
#reset-options "--z3rlimit 50 --fuel 0 --ifuel 0"
inline_for_extraction noextract
val rsapss_check_pkey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t ->
res:bool{res <==> LS.pkey_len_pre t (v modBits) (v eBits)}
let rsapss_check_pkey_len #t modBits eBits =
if 1ul <. modBits && 0ul <. eBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
nLen <=. 0xfffffffful /. (2ul *! bits) && eLen <=. 0xfffffffful /. bits &&
nLen +! nLen <=. 0xfffffffful -. eLen end
else false
inline_for_extraction noextract
val rsapss_check_skey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t
-> dBits:size_t ->
res:bool{res <==> LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
let rsapss_check_skey_len #t modBits eBits dBits =
if rsapss_check_pkey_len #t modBits eBits && 0ul <. dBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
dLen <=. 0xfffffffful /. bits &&
2ul *! nLen <=. 0xfffffffful -! eLen -! dLen end
else false
inline_for_extraction noextract
let bn_check_num_bits_st (t:limb_t) =
bs:size_t{0 < v bs /\ bits t * v (blocks bs (size (bits t))) <= max_size_t}
-> b:lbignum t (blocks bs (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h b)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.bn_check_num_bits (v bs) (as_seq h0 b))
inline_for_extraction noextract
val bn_check_num_bits: #t:limb_t -> bn_check_num_bits_st t
let bn_check_num_bits #t bs b =
[@inline_let] let bits = size (bits t) in
let bLen = blocks bs bits in
if bs =. bits *! bLen then ones t SEC else BN.bn_lt_pow2_mask bLen b bs
inline_for_extraction noextract
let rsapss_check_modulus_st (t:limb_t) =
modBits:size_t{0 < v modBits /\ bits t * v (blocks modBits (size (bits t))) <= max_size_t}
-> n:lbignum t (blocks modBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h n)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_modulus (v modBits) (as_seq h0 n))
inline_for_extraction noextract
val rsapss_check_modulus:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_modulus_st t
let rsapss_check_modulus #t bn_check_num_bits modBits n =
let nLen = blocks modBits (size (bits t)) in
let bits0 = BN.bn_is_odd nLen n in
let m0 = uint #t 0 -. bits0 in
let m1 = BN.bn_gt_pow2_mask nLen n (modBits -! 1ul) in
let m2 = bn_check_num_bits modBits n in
m0 &. (m1 &. m2)
inline_for_extraction noextract
let rsapss_check_exponent_st (t:limb_t) =
eBits:size_t{0 < v eBits /\ bits t * v (blocks eBits (size (bits t))) <= max_size_t}
-> e:lbignum t (blocks eBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h e)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_exponent (v eBits) (as_seq h0 e))
inline_for_extraction noextract
val rsapss_check_exponent:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_exponent_st t
let rsapss_check_exponent #t bn_check_num_bits eBits e =
let eLen = blocks eBits (size (bits t)) in
let m0 = BN.bn_is_zero_mask eLen e in
let m1 = bn_check_num_bits eBits e in
(lognot m0) &. m1
inline_for_extraction noextract
class rsapss_checks (t:limb_t) = {
check_num_bits: bn_check_num_bits_st t;
check_modulus: rsapss_check_modulus_st t;
check_exponent: rsapss_check_exponent_st t;
}
[@CInline]
let check_num_bits_u32 : bn_check_num_bits_st U32 =
bn_check_num_bits
[@CInline]
let check_modulus_u32 : rsapss_check_modulus_st U32 =
rsapss_check_modulus check_num_bits_u32
[@CInline]
let check_exponent_u32 : rsapss_check_exponent_st U32 =
rsapss_check_exponent check_num_bits_u32
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint32: rsapss_checks U32
let mk_runtime_rsapss_checks_uint32 = {
check_num_bits = check_num_bits_u32;
check_modulus = check_modulus_u32;
check_exponent = check_exponent_u32;
}
[@CInline]
let check_num_bits_u64 : bn_check_num_bits_st U64 =
bn_check_num_bits
[@CInline]
let check_modulus_u64 : rsapss_check_modulus_st U64 =
rsapss_check_modulus check_num_bits_u64
[@CInline]
let check_exponent_u64 : rsapss_check_exponent_st U64 =
rsapss_check_exponent check_num_bits_u64
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint64: rsapss_checks U64
let mk_runtime_rsapss_checks_uint64 = {
check_num_bits = check_num_bits_u64;
check_modulus = check_modulus_u64;
check_exponent = check_exponent_u64;
}
inline_for_extraction noextract
let mk_runtime_rsapss_checks (#t:limb_t) : rsapss_checks t =
match t with
| U32 -> mk_runtime_rsapss_checks_uint32
| U64 -> mk_runtime_rsapss_checks_uint64
//pkey = [n; r2; e]
inline_for_extraction noextract
let rsapss_load_pkey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t{LS.pkey_len_pre t (v modBits) (v eBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> pkey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h pkey /\
disjoint pkey nb /\ disjoint pkey eb)
(ensures fun h0 b h1 -> modifies (loc pkey) h0 h1 /\
(b, as_seq h1 pkey) == LS.rsapss_load_pkey (v modBits) (v eBits) (as_seq h0 nb) (as_seq h0 eb))
inline_for_extraction noextract
val rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
rsapss_load_pkey_st t ke modBits | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"LowStar.Monotonic.Buffer.fsti.checked",
"LowStar.Buffer.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Buffer.fsti.checked",
"Hacl.Spec.RSAPSS.fst.checked",
"Hacl.Spec.Bignum.Base.fst.checked",
"Hacl.Bignum.Montgomery.fsti.checked",
"Hacl.Bignum.Exponentiation.fsti.checked",
"Hacl.Bignum.Definitions.fst.checked",
"Hacl.Bignum.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Tactics.Typeclasses.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.HyperStack.ST.fsti.checked",
"FStar.HyperStack.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Impl.RSAPSS.Keys.fst"
} | [
{
"abbrev": true,
"full_module": "Hacl.Bignum.Exponentiation",
"short_module": "BE"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.Bignum.Base",
"short_module": "BB"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum",
"short_module": "BN"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum.Montgomery",
"short_module": "BM"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.RSAPSS",
"short_module": "LS"
},
{
"abbrev": true,
"full_module": "Lib.Sequence",
"short_module": "LSeq"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack.ST",
"short_module": "ST"
},
{
"abbrev": false,
"full_module": "Hacl.Bignum.Definitions",
"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.ST",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.HyperStack",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 0,
"initial_ifuel": 0,
"max_fuel": 0,
"max_ifuel": 0,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
ke: Hacl.Bignum.Exponentiation.exp t ->
modBits: Lib.IntTypes.size_t ->
kc: Hacl.Impl.RSAPSS.Keys.rsapss_checks t
-> Hacl.Impl.RSAPSS.Keys.rsapss_load_pkey_st t ke modBits | Prims.Tot | [
"total"
] | [] | [
"Hacl.Bignum.Definitions.limb_t",
"Hacl.Bignum.Exponentiation.exp",
"Lib.IntTypes.size_t",
"Hacl.Impl.RSAPSS.Keys.rsapss_checks",
"Hacl.Spec.RSAPSS.pkey_len_pre",
"Lib.IntTypes.v",
"Lib.IntTypes.U32",
"Lib.IntTypes.PUB",
"Lib.Buffer.lbuffer",
"Lib.IntTypes.uint8",
"Hacl.Bignum.Definitions.blocks",
"FStar.UInt32.__uint_to_t",
"Hacl.Bignum.Definitions.lbignum",
"Lib.IntTypes.op_Plus_Bang",
"Lib.IntTypes.op_Star_Bang",
"Lib.IntTypes.size",
"Lib.IntTypes.bits",
"Hacl.Spec.Bignum.Base.unsafe_bool_of_limb",
"Lib.IntTypes.int_t",
"Lib.IntTypes.SEC",
"Lib.IntTypes.op_Amp_Dot",
"Prims.bool",
"Hacl.Bignum.Definitions.limb",
"Hacl.Impl.RSAPSS.Keys.__proj__Mkrsapss_checks__item__check_exponent",
"Hacl.Impl.RSAPSS.Keys.__proj__Mkrsapss_checks__item__check_modulus",
"Prims.unit",
"Lib.Sequence.lemma_concat3",
"Lib.Buffer.as_seq",
"Lib.Buffer.MUT",
"FStar.Monotonic.HyperStack.mem",
"FStar.HyperStack.ST.get",
"Hacl.Bignum.bn_from_bytes_be",
"Hacl.Bignum.Exponentiation.__proj__Mkexp__item__precompr2",
"Lib.IntTypes.op_Subtraction_Bang",
"Lib.Buffer.lbuffer_t",
"Lib.Buffer.sub",
"Prims._assert",
"Prims.eq2",
"Lib.IntTypes.range_t",
"Hacl.Spec.RSAPSS.blocks_bits_lemma",
"Prims.b2t",
"Prims.op_LessThan",
"Lib.IntTypes.op_Slash_Dot",
"Prims.int",
"Prims.l_or",
"Lib.IntTypes.range",
"Prims.l_and",
"Prims.op_GreaterThan",
"Prims.op_LessThanOrEqual",
"Prims.op_Subtraction",
"Prims.pow2",
"Prims.op_Multiply",
"Hacl.Spec.Bignum.Definitions.blocks",
"FStar.UInt32.uint_to_t",
"FStar.UInt32.t",
"Lib.IntTypes.numbytes"
] | [] | false | false | false | false | false | let rsapss_load_pkey #t ke modBits kc eBits nb eb pkey =
| let h0 = ST.get () in
[@@ inline_let ]let bits = size (bits t) in
[@@ inline_let ]let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
assert (v ((modBits -! 1ul) /. bits) < v nLen);
LS.blocks_bits_lemma t (v modBits);
assert (v (blocks nbLen numb) == v nLen);
LS.blocks_bits_lemma t (v eBits);
assert (v (blocks ebLen numb) == v eLen);
let n = sub pkey 0ul nLen in
let r2 = sub pkey nLen nLen in
let e = sub pkey (nLen +! nLen) eLen in
BN.bn_from_bytes_be nbLen nb n;
ke.BE.precompr2 (modBits -! 1ul) n r2;
BN.bn_from_bytes_be ebLen eb e;
let h1 = ST.get () in
LSeq.lemma_concat3 (v nLen)
(as_seq h1 n)
(v nLen)
(as_seq h1 r2)
(v eLen)
(as_seq h1 e)
(as_seq h1 pkey);
let m0 = kc.check_modulus modBits n in
let m1 = kc.check_exponent eBits e in
let m = m0 &. m1 in
BB.unsafe_bool_of_limb #t m | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.update_multi_associative | val update_multi_associative
(#a: _)
(block_length: pos)
(update: update_t a block_length)
(acc: a)
(input1 input2: S.seq uint8)
: Lemma (requires S.length input1 % block_length == 0 /\ S.length input2 % block_length == 0)
(ensures
(let input = S.append input1 input2 in
S.length input % block_length == 0 /\
mk_update_multi block_length
update
(mk_update_multi block_length update acc input1)
input2 ==
mk_update_multi block_length update acc input))
(decreases (S.length input1 + S.length input2)) | val update_multi_associative
(#a: _)
(block_length: pos)
(update: update_t a block_length)
(acc: a)
(input1 input2: S.seq uint8)
: Lemma (requires S.length input1 % block_length == 0 /\ S.length input2 % block_length == 0)
(ensures
(let input = S.append input1 input2 in
S.length input % block_length == 0 /\
mk_update_multi block_length
update
(mk_update_multi block_length update acc input1)
input2 ==
mk_update_multi block_length update acc input))
(decreases (S.length input1 + S.length input2)) | let rec update_multi_associative #a (block_length: pos)
(update: update_t a block_length)
(acc: a)
(input1 input2: S.seq uint8):
Lemma
(requires
S.length input1 % block_length == 0 /\
S.length input2 % block_length == 0)
(ensures (
let input = S.append input1 input2 in
S.length input % block_length == 0 /\
mk_update_multi block_length update (mk_update_multi block_length update acc input1) input2 ==
mk_update_multi block_length update acc input))
(decreases (
S.length input1 + S.length input2))
=
let input = S.append input1 input2 in
concat_blocks_modulo block_length input1 input2;
if S.length input1 = 0 then
calc (==) {
mk_update_multi block_length update (mk_update_multi block_length update acc input1) input2;
(==) { update_multi_zero block_length update acc }
mk_update_multi block_length update acc input2;
(==) { S.lemma_eq_intro input2 (S.empty `S.append` input2) }
mk_update_multi block_length update acc (S.empty `S.append` input2);
(==) { S.lemma_eq_intro input1 S.empty }
mk_update_multi block_length update acc (input1 `S.append` input2);
}
else
let input1_hd, input1_tl = split_block block_length input1 1 in
S.lemma_eq_intro input1 (input1_hd `S.append` input1_tl);
update_multi_associative block_length update (update acc input1_hd) input1_tl input2;
let s = input1_hd `S.append` (input1_tl `S.append` input2) in
S.lemma_eq_intro (fst (S.split s (1 * block_length))) input1_hd;
S.lemma_eq_intro (snd (S.split s (1 * block_length))) (input1_tl `S.append` input2);
S.lemma_eq_intro (input1_hd `S.append` (input1_tl `S.append` input2)) input | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 79,
"end_line": 392,
"start_col": 0,
"start_line": 357
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options
inline_for_extraction noextract
let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy
(l: pos)
(b: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures (fun (blocks, rest) ->
S.length rest <= l /\
(S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==>
(S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==>
(S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\
S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks))
=
let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest
#pop-options
let update_t a block_length =
a -> b:S.seq uint8 { S.length b = block_length } -> a
let rec mk_update_multi #a (block_length: pos)
(update: update_t a block_length)
(acc: a)
(blocks: S.seq uint8): Pure a
(requires
S.length blocks % block_length = 0)
(ensures fun _ ->
True)
(decreases (S.length blocks))
=
if S.length blocks = 0 then
acc
else
let block, rem = split_block block_length blocks 1 in
let acc = update acc block in
mk_update_multi block_length update acc rem
let update_full #a
(block_length:pos)
(update: a -> (s:S.seq uint8 { S.length s = block_length }) -> a)
(update_last: a -> (s:S.seq uint8 { S.length s < block_length }) -> a)
(acc: a)
(input: S.seq uint8)
=
// let n_blocks = S.length input / block_length in
// let rem = S.length input % block_length in
// let blocks, rest = S.split input (n_blocks * block_length) in
let blocks, rest = split_at_last block_length input in
// assert (S.length rest = S.length input % block_length);
// Math.Lemmas.multiple_modulo_lemma n_blocks block_length;
// assert (S.length blocks % block_length = 0);
// assert (S.length rest < block_length);
update_last (mk_update_multi block_length update acc blocks) rest
/// Same as [update_full] but we make sure the last block is not empty in order
/// to mimic the behavior of the streaming API where we lazily process the internal
/// block. Note that the length condition on update_last is not the same.
#push-options "--z3rlimit 100"
let update_full_lazy #a
(block_length:pos)
(update: a -> (s:S.seq uint8 { S.length s = block_length }) -> a)
(update_last: a -> (s:S.seq uint8 { S.length s <= block_length }) -> a)
(acc: a)
(input: S.seq uint8)
=
// let n_blocks = S.length input / block_length in
// let rem = S.length input % block_length in
// let n_blocks, rem = if rem = 0 && n_blocks > 0 then n_blocks - 1, block_length
// else n_blocks, rem in
// let blocks, rest = S.split input (n_blocks * block_length) in
let blocks, rest = split_at_last_lazy block_length input in
// assert (S.length rest % block_length = S.length input % block_length);
// Math.Lemmas.multiple_modulo_lemma n_blocks block_length;
// assert (S.length blocks % block_length = 0);
// assert (S.length rest <= block_length);
update_last (mk_update_multi block_length update acc blocks) rest
#pop-options
/// Lemmas
/// ======
#push-options "--z3cliopt smt.arith.nl=false"
let concat_blocks_modulo (block_len: pos) (s1 s2: S.seq uint8): Lemma
(requires
S.length s1 % block_len = 0 /\
S.length s2 % block_len = 0)
(ensures
S.length (S.append s1 s2) % block_len = 0)
=
let input = S.append s1 s2 in
let input1 = s1 in
let input2 = s2 in
calc (==) {
S.length input % block_len;
(==) { S.lemma_len_append input1 input2 }
(S.length input1 + S.length input2) % block_len;
(==) {
FStar.Math.Lemmas.modulo_distributivity (S.length input1) (S.length input2) (block_len)
}
(S.length input1 % block_len + S.length input2 % block_len) % block_len;
(==) { (* hyp *) }
0 % block_len;
(==) { FStar.Math.Lemmas.small_mod 0 block_len }
0;
}
#pop-options
#push-options "--fuel 1"
let update_multi_zero #a (block_length: pos)
(update: update_t a block_length)
(acc: a):
Lemma
(ensures (mk_update_multi block_length update acc S.empty == acc))
=
()
#pop-options | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": 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": 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 |
block_length: Prims.pos ->
update: Lib.UpdateMulti.update_t a block_length ->
acc: a ->
input1: FStar.Seq.Base.seq Lib.UpdateMulti.uint8 ->
input2: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> FStar.Pervasives.Lemma
(requires
FStar.Seq.Base.length input1 % block_length == 0 /\
FStar.Seq.Base.length input2 % block_length == 0)
(ensures
(let input = FStar.Seq.Base.append input1 input2 in
FStar.Seq.Base.length input % block_length == 0 /\
Lib.UpdateMulti.mk_update_multi block_length
update
(Lib.UpdateMulti.mk_update_multi block_length update acc input1)
input2 ==
Lib.UpdateMulti.mk_update_multi block_length update acc input))
(decreases FStar.Seq.Base.length input1 + FStar.Seq.Base.length input2) | FStar.Pervasives.Lemma | [
"lemma",
""
] | [] | [
"Prims.pos",
"Lib.UpdateMulti.update_t",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.op_Equality",
"Prims.int",
"FStar.Seq.Base.length",
"FStar.Calc.calc_finish",
"Prims.eq2",
"Lib.UpdateMulti.mk_update_multi",
"FStar.Seq.Base.append",
"Prims.Cons",
"FStar.Preorder.relation",
"Prims.Nil",
"Prims.unit",
"FStar.Calc.calc_step",
"FStar.Seq.Base.empty",
"FStar.Calc.calc_init",
"FStar.Calc.calc_pack",
"Lib.UpdateMulti.update_multi_zero",
"Prims.squash",
"FStar.Seq.Base.lemma_eq_intro",
"Prims.bool",
"FStar.Pervasives.Native.snd",
"FStar.Seq.Properties.split",
"FStar.Mul.op_Star",
"FStar.Pervasives.Native.fst",
"Lib.UpdateMulti.update_multi_associative",
"FStar.Pervasives.Native.tuple2",
"Lib.UpdateMulti.split_block",
"Lib.UpdateMulti.concat_blocks_modulo",
"Prims.l_and",
"Prims.op_Modulus",
"FStar.Pervasives.pattern"
] | [
"recursion"
] | false | false | true | false | false | let rec update_multi_associative
#a
(block_length: pos)
(update: update_t a block_length)
(acc: a)
(input1: S.seq uint8)
(input2: S.seq uint8)
: Lemma (requires S.length input1 % block_length == 0 /\ S.length input2 % block_length == 0)
(ensures
(let input = S.append input1 input2 in
S.length input % block_length == 0 /\
mk_update_multi block_length
update
(mk_update_multi block_length update acc input1)
input2 ==
mk_update_multi block_length update acc input))
(decreases (S.length input1 + S.length input2)) =
| let input = S.append input1 input2 in
concat_blocks_modulo block_length input1 input2;
if S.length input1 = 0
then
calc ( == ) {
mk_update_multi block_length update (mk_update_multi block_length update acc input1) input2;
( == ) { update_multi_zero block_length update acc }
mk_update_multi block_length update acc input2;
( == ) { S.lemma_eq_intro input2 (S.empty `S.append` input2) }
mk_update_multi block_length update acc (S.empty `S.append` input2);
( == ) { S.lemma_eq_intro input1 S.empty }
mk_update_multi block_length update acc (input1 `S.append` input2);
}
else
let input1_hd, input1_tl = split_block block_length input1 1 in
S.lemma_eq_intro input1 (input1_hd `S.append` input1_tl);
update_multi_associative block_length update (update acc input1_hd) input1_tl input2;
let s = input1_hd `S.append` (input1_tl `S.append` input2) in
S.lemma_eq_intro (fst (S.split s (1 * block_length))) input1_hd;
S.lemma_eq_intro (snd (S.split s (1 * block_length))) (input1_tl `S.append` input2);
S.lemma_eq_intro (input1_hd `S.append` (input1_tl `S.append` input2)) input | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.uint_to_nat_seq_t | val uint_to_nat_seq_t (t: ME.base_typ) (b: Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t) | val uint_to_nat_seq_t (t: ME.base_typ) (b: Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t) | let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i)) | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 94,
"end_line": 54,
"start_col": 0,
"start_line": 50
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i)) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | t: Vale.Arch.HeapTypes_s.base_typ -> b: FStar.Seq.Base.seq (Vale.Interop.Types.base_typ_as_type t)
-> FStar.Seq.Base.seq (Vale.X64.Memory.base_typ_as_vale_type t) | Prims.Tot | [
"total"
] | [] | [
"Vale.Arch.HeapTypes_s.base_typ",
"FStar.Seq.Base.seq",
"Vale.Interop.Types.base_typ_as_type",
"FStar.Seq.Base.init",
"Vale.X64.Memory.base_typ_as_vale_type",
"FStar.Seq.Base.length",
"Prims.nat",
"Prims.b2t",
"Prims.op_LessThan",
"Vale.AsLowStar.LowStarSig.uint_to_nat",
"FStar.Seq.Base.index"
] | [] | false | false | false | false | false | let uint_to_nat_seq_t (t: ME.base_typ) (b: Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t) =
| Seq.init (Seq.length b) (fun (i: nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i)) | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.vale_pre_hyp | val vale_pre_hyp (#max_arity: nat) (#arg_reg: IX64.arg_reg_relation max_arity) (args: IX64.arg_list)
: VSig.sprop | val vale_pre_hyp (#max_arity: nat) (#arg_reg: IX64.arg_reg_relation max_arity) (args: IX64.arg_list)
: VSig.sprop | let vale_pre_hyp
(#max_arity:nat)
(#arg_reg:IX64.arg_reg_relation max_arity)
(args:IX64.arg_list)
: VSig.sprop =
fun s0 ->
V.state_inv s0 /\
ME.is_initial_heap s0.VS.vs_heap.vf_layout s0.VS.vs_heap.vf_heap /\
ME.get_heaplet_id s0.VS.vs_heap.vf_heap == None /\
VSig.disjoint_or_eq args /\
VSig.readable args (ME.get_vale_heap s0.VS.vs_heap) /\
register_args max_arity arg_reg (List.length args) args s0 /\
stack_args max_arity (List.length args) args s0 /\
VS.eval_reg_64 MS.rRsp s0 == SI.init_rsp s0.VS.vs_stack /\
taint_hyp args s0 | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 23,
"end_line": 224,
"start_col": 0,
"start_line": 210
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i))
[@__reduce__]
let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128
//////////////////////////////////////////////////////////////////////////////////////////
//lowstar_sig pre post:
// Interepreting a vale pre/post as a Low* function type
//////////////////////////////////////////////////////////////////////////////////////////
let hprop = HS.mem -> prop
let hsprop = HS.mem -> VS.vale_state -> prop
module IB = Vale.Interop.Base
[@__reduce__]
let mem_correspondence_1
(src t:ME.base_typ)
(x:IB.buf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_buffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t)))
[@__reduce__]
let mem_imm_correspondence_1
(src t:ME.base_typ)
(x:IB.ibuf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_immbuffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t)))
[@__reduce__]
let rec mem_correspondence (args:list arg) : hsprop =
match args with
| [] -> fun h s -> True
| hd :: tl ->
let (| tag, x |) = hd in
match tag with
| TD_Buffer src bt _ ->
fun h s ->
mem_correspondence_1 src bt x h s /\
mem_correspondence tl h s
| TD_ImmBuffer src bt _ ->
fun h s ->
mem_imm_correspondence_1 src bt x h s /\
mem_correspondence tl h s
| TD_Base _ ->
mem_correspondence tl
[@__reduce__]
let arg_as_nat64 (a:arg) (s:VS.vale_state) : GTot ME.nat64 =
let (| tag, x |) = a in
let open ME in
match tag with
| TD_Base TUInt8 ->
UInt8.v x
| TD_Base TUInt16 ->
UInt16.v x
| TD_Base TUInt32 ->
UInt32.v x
| TD_Base TUInt64 ->
UInt64.v x
| TD_Buffer src bt _ ->
buffer_addr_is_nat64 (as_vale_buffer #src #bt x) s;
ME.buffer_addr (as_vale_buffer #src #bt x) (ME.get_vale_heap s.VS.vs_heap)
| TD_ImmBuffer src bt _ ->
buffer_addr_is_nat64 (as_vale_immbuffer #src #bt x) s;
ME.buffer_addr (as_vale_immbuffer #src #bt x) (ME.get_vale_heap s.VS.vs_heap)
[@__reduce__]
let rec register_args (max_arity:nat)
(arg_reg:IX64.arg_reg_relation max_arity)
(n:nat)
(args:list arg{List.Tot.length args = n}) : VSig.sprop =
match args with
| [] -> (fun s -> True)
| hd::tl ->
fun s ->
register_args max_arity arg_reg (n - 1) tl s /\
(if n > max_arity then True // This arg is passed on the stack
else VS.eval_reg_64 (arg_reg.IX64.of_arg (n - 1)) s == arg_as_nat64 hd s)
[@__reduce__]
let rec stack_args (max_arity:nat)
(n:nat)
(args:list arg{List.Tot.length args = n})
: VSig.sprop =
match args with
| [] -> (fun s -> True)
| hd::tl ->
fun s ->
stack_args max_arity (n - 1) tl s /\
(if n <= max_arity then True // This arg is passed in registers
else
let ptr = ((n - max_arity) - 1) * 8
+ (if IA.win then 32 else 0)
+ 8
+ VS.eval_reg_64 MS.rRsp s
in
SI.valid_stack_slot64 ptr s.VS.vs_stack MS.Public s.VS.vs_stackTaint /\
SI.load_stack64 ptr s.VS.vs_stack == arg_as_nat64 hd s)
[@__reduce__]
let taint_hyp_arg (m:ME.vale_heap) (tm:MS.memTaint_t) (a:arg) =
let (| tag, x |) = a in
match tag with
| TD_Buffer src TUInt64 {taint=tnt} ->
ME.valid_taint_buf64
(as_vale_buffer #src #TUInt64 x)
m
tm
tnt
| TD_Buffer src TUInt128 {taint=tnt} ->
ME.valid_taint_buf128
(as_vale_buffer #src #TUInt128 x)
m
tm
tnt
| TD_ImmBuffer src TUInt64 {taint=tnt} ->
ME.valid_taint_buf64
(as_vale_immbuffer #src #TUInt64 x)
m
tm
tnt
| TD_ImmBuffer src TUInt128 {taint=tnt} ->
ME.valid_taint_buf128
(as_vale_immbuffer #src #TUInt128 x)
m
tm
tnt
| _ ->
True
[@__reduce__]
let taint_hyp (args:list arg) : VSig.sprop =
fun s0 -> BigOps.big_and' (taint_hyp_arg (ME.get_vale_heap s0.VS.vs_heap) (full_heap_taint s0.VS.vs_heap)) args | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.Interop.Base",
"short_module": "IB"
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | args: Vale.Interop.X64.arg_list -> Vale.AsLowStar.ValeSig.sprop | Prims.Tot | [
"total"
] | [] | [
"Prims.nat",
"Vale.Interop.X64.arg_reg_relation",
"Vale.Interop.X64.arg_list",
"Vale.X64.State.vale_state",
"Prims.l_and",
"Vale.X64.Decls.state_inv",
"Vale.X64.Memory.is_initial_heap",
"Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_layout",
"Vale.X64.State.__proj__Mkvale_state__item__vs_heap",
"Vale.Arch.HeapImpl.__proj__Mkvale_full_heap__item__vf_heap",
"Prims.eq2",
"FStar.Pervasives.Native.option",
"Vale.X64.Memory.heaplet_id",
"Vale.X64.Memory.get_heaplet_id",
"FStar.Pervasives.Native.None",
"Vale.AsLowStar.ValeSig.disjoint_or_eq",
"Vale.AsLowStar.ValeSig.readable",
"Vale.X64.Memory.get_vale_heap",
"Vale.AsLowStar.LowStarSig.register_args",
"FStar.List.Tot.Base.length",
"Vale.Interop.Base.arg",
"Vale.AsLowStar.LowStarSig.stack_args",
"Vale.X64.Memory.nat64",
"Vale.X64.State.eval_reg_64",
"Vale.X64.Machine_s.rRsp",
"Vale.X64.Stack_i.init_rsp",
"Vale.X64.State.__proj__Mkvale_state__item__vs_stack",
"Vale.AsLowStar.LowStarSig.taint_hyp",
"Prims.prop",
"Vale.AsLowStar.ValeSig.sprop"
] | [] | false | false | false | false | false | let vale_pre_hyp (#max_arity: nat) (#arg_reg: IX64.arg_reg_relation max_arity) (args: IX64.arg_list)
: VSig.sprop =
| fun s0 ->
V.state_inv s0 /\ ME.is_initial_heap s0.VS.vs_heap.vf_layout s0.VS.vs_heap.vf_heap /\
ME.get_heaplet_id s0.VS.vs_heap.vf_heap == None /\ VSig.disjoint_or_eq args /\
VSig.readable args (ME.get_vale_heap s0.VS.vs_heap) /\
register_args max_arity arg_reg (List.length args) args s0 /\
stack_args max_arity (List.length args) args s0 /\
VS.eval_reg_64 MS.rRsp s0 == SI.init_rsp s0.VS.vs_stack /\ taint_hyp args s0 | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.nat_to_uint_seq_t | val nat_to_uint_seq_t (t: ME.base_typ) (b: Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t) | val nat_to_uint_seq_t (t: ME.base_typ) (b: Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t) | let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i)) | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 94,
"end_line": 47,
"start_col": 0,
"start_line": 43
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | t: Vale.Arch.HeapTypes_s.base_typ -> b: FStar.Seq.Base.seq (Vale.X64.Memory.base_typ_as_vale_type t)
-> FStar.Seq.Base.seq (Vale.Interop.Types.base_typ_as_type t) | Prims.Tot | [
"total"
] | [] | [
"Vale.Arch.HeapTypes_s.base_typ",
"FStar.Seq.Base.seq",
"Vale.X64.Memory.base_typ_as_vale_type",
"FStar.Seq.Base.init",
"Vale.Interop.Types.base_typ_as_type",
"FStar.Seq.Base.length",
"Prims.nat",
"Prims.b2t",
"Prims.op_LessThan",
"Vale.AsLowStar.LowStarSig.nat_to_uint",
"FStar.Seq.Base.index"
] | [] | false | false | false | false | false | let nat_to_uint_seq_t (t: ME.base_typ) (b: Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t) =
| Seq.init (Seq.length b) (fun (i: nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i)) | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.split_at_last_lazy_nb_rem | val split_at_last_lazy_nb_rem (l: pos) (d: nat)
: Pure (nat & nat)
(requires True)
(ensures
(fun (n, rem) ->
let blocks = n * l in
rem <= l /\ (rem % l = d % l) /\ (rem = d % l \/ rem = l) /\ (rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\ ((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\ blocks % l = 0 /\
(blocks / l) * l = blocks)) | val split_at_last_lazy_nb_rem (l: pos) (d: nat)
: Pure (nat & nat)
(requires True)
(ensures
(fun (n, rem) ->
let blocks = n * l in
rem <= l /\ (rem % l = d % l) /\ (rem = d % l \/ rem = l) /\ (rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\ ((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\ blocks % l = 0 /\
(blocks / l) * l = blocks)) | let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 7,
"end_line": 209,
"start_col": 0,
"start_line": 147
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...). | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": [
"smt.arith.nl=false"
],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | l: Prims.pos -> d: Prims.nat -> Prims.Pure (Prims.nat * Prims.nat) | Prims.Pure | [] | [] | [
"Prims.pos",
"Prims.nat",
"Prims.op_AmpAmp",
"Prims.op_GreaterThan",
"Prims.op_Equality",
"Prims.int",
"FStar.Pervasives.Native.Mktuple2",
"Prims.unit",
"Prims._assert",
"Prims.b2t",
"FStar.Mul.op_Star",
"Prims.op_Division",
"FStar.Math.Lemmas.euclidean_division_definition",
"Prims.op_Modulus",
"FStar.Math.Lemmas.lemma_mod_sub_distr",
"Prims.op_GreaterThanOrEqual",
"FStar.Math.Lemmas.nat_times_nat_is_nat",
"Prims.op_Subtraction",
"Prims.bool",
"Prims.op_disEquality",
"FStar.Math.Lemmas.mul_zero_left_is_zero",
"Prims.op_Addition",
"Prims.op_BarBar",
"FStar.Pervasives.Native.tuple2",
"FStar.Math.Lemmas.distributivity_sub_left",
"Lib.UpdateMulti.split_at_last_nb_rem",
"Prims.l_True",
"Prims.l_and",
"Prims.op_LessThanOrEqual",
"Prims.l_or",
"Prims.l_iff",
"Prims.eq2",
"Prims.op_LessThan"
] | [] | false | false | false | false | false | let split_at_last_lazy_nb_rem (l: pos) (d: nat)
: Pure (nat & nat)
(requires True)
(ensures
(fun (n, rem) ->
let blocks = n * l in
rem <= l /\ (rem % l = d % l) /\ (rem = d % l \/ rem = l) /\ (rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\ ((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\ blocks % l = 0 /\
(blocks / l) * l = blocks)) =
| let n, rem = split_at_last_nb_rem l d in
let blocks = n * l in
Math.Lemmas.euclidean_division_definition blocks l;
assert ((blocks / l) * l = blocks);
Math.Lemmas.distributivity_sub_left (d / l) 1 l;
assert ((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0
then
let n' = n - 1 in
let blocks' = n' * l in
let rem' = d - blocks' in
assert (rem = 0);
assert (blocks' = blocks - l);
assert (rem' = l);
Math.Lemmas.nat_times_nat_is_nat n' l;
assert (n' * l >= 0);
assert (d > 0);
Math.Lemmas.lemma_mod_sub_distr blocks l l;
assert (l % l = 0);
assert (blocks' % l = 0);
Math.Lemmas.euclidean_division_definition blocks' l;
assert ((blocks' / l) * l = blocks');
n', rem'
else
((assert (d % l <> 0 || n = 0);
if d % l <> 0
then
(assert (rem <> 0);
Math.Lemmas.nat_times_nat_is_nat n l;
assert (n * l >= 0))
else
(assert (n = 0);
assert (d = n * l + rem);
Math.Lemmas.mul_zero_left_is_zero l;
assert (n * l = 0);
assert (d = rem)));
n, rem) | false |
Lib.UpdateMulti.fst | Lib.UpdateMulti.split_at_last_lazy | val split_at_last_lazy (l: pos) (b: S.seq uint8)
: Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures
(fun (blocks, rest) ->
S.length rest <= l /\ (S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==> (S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==> (S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\ S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks)) | val split_at_last_lazy (l: pos) (b: S.seq uint8)
: Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures
(fun (blocks, rest) ->
S.length rest <= l /\ (S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==> (S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==> (S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\ S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks)) | let split_at_last_lazy
(l: pos)
(b: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures (fun (blocks, rest) ->
S.length rest <= l /\
(S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==>
(S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==>
(S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\
S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks))
=
let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest | {
"file_name": "lib/Lib.UpdateMulti.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 14,
"end_line": 253,
"start_col": 0,
"start_line": 231
} | module Lib.UpdateMulti
/// This module defines a generic update_multi combinator, used in various
/// places, including hashes and the streaming functor. See
/// Lib.UpdateMulti.Lemmas for an equivalence between update_multi and the
/// Lib-style repeat combinators.
module S = FStar.Seq
open FStar.Mul
#set-options "--max_fuel 0 --max_ifuel 0 --z3rlimit 50"
let uint8 = Lib.IntTypes.uint8
/// Specification
/// =============
/// Helpers that deal with the modulo proof obligation to make things go
/// smoothly. Originally in Spec.Agile.Hash, now generic, with a much more
/// robust proof.
/// The first helpers help to reason about splitting data at ad-hoc number of blocks.
/// First, reason about the lengths
#push-options "--z3cliopt smt.arith.nl=false"
let split_nb_lem (block_length: pos)
(data_length: nat)
(n: nat):
Lemma
(requires
n <= data_length / block_length)
(ensures (
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(data_length - n * block_length) % block_length = data_length % block_length)) =
let bl = n * block_length in
Math.Lemmas.nat_times_nat_is_nat n block_length;
Math.Lemmas.nat_over_pos_is_nat bl block_length;
assert(bl >= 0);
assert(bl / block_length >= 0);
Math.Lemmas.multiple_modulo_lemma n block_length;
assert(bl % block_length = 0);
calc (<=) {
bl;
(<=) { Math.Lemmas.lemma_mult_le_right block_length n (data_length / block_length) }
(data_length / block_length) * block_length;
(<=) {}
(data_length / block_length) * block_length + data_length % block_length;
(==) { Math.Lemmas.euclidean_division_definition data_length block_length }
data_length;
};
let r = data_length - bl in
calc (==) {
r % block_length;
(==) { Math.Lemmas.modulo_distributivity data_length (- bl) block_length }
(data_length % block_length + (- bl) % block_length) % block_length;
(==) { Math.Lemmas.paren_mul_right (-1) n block_length }
(data_length % block_length + ((- n) * block_length) % block_length) % block_length;
(==) { Math.Lemmas.multiple_modulo_lemma (-n) block_length }
(data_length % block_length) % block_length;
(==) { Math.Lemmas.lemma_mod_add_distr 0 data_length block_length }
data_length % block_length;
}
#pop-options
/// The helper which actually splits sequences - TODO: rename
#push-options "--z3cliopt smt.arith.nl=false"
let split_block
(block_length: pos)
(data: S.seq uint8)
(n: nat):
Pure (S.seq uint8 & S.seq uint8)
(requires
n <= S.length data / block_length)
(ensures fun (l, r) ->
0 <= n * block_length /\
n * block_length <= S.length data /\
S.length l % block_length = 0 /\
(S.length r % block_length = S.length data % block_length) /\
l == fst (Seq.split data (FStar.Mul.(n * block_length))) /\
r == snd (Seq.split data (FStar.Mul.(n * block_length))) /\
S.append l r == data)
=
split_nb_lem block_length (Seq.length data) n;
let l, r = S.split data FStar.Mul.(n * block_length) in
S.lemma_eq_intro (l `S.append` r) data;
assert(S.length l = n * block_length);
assert(S.length r = S.length data - n * block_length);
assert (l == fst (Seq.split data (FStar.Mul.(n * block_length))));
assert (r == snd (Seq.split data (FStar.Mul.(n * block_length))));
assert (S.append l r == data);
l, r
#pop-options
/// We now define more specific split functions, to split data between a
/// sequence of blocks and a remainder (strictly) smaller than a block.
/// First version: the remainder is strictly smaller than a block
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_nb_rem
(block_length: pos)
(data_length: nat) :
Pure (nat & nat)
(requires True)
(ensures fun (n, rem) ->
0 <= n * block_length /\
n * block_length <= data_length /\
n * block_length % block_length = 0 /\
(rem % block_length = data_length % block_length) /\
n = data_length / block_length /\
rem = data_length % block_length /\
0 <= rem /\ rem < block_length /\
data_length = n * block_length + rem) =
let n = data_length / block_length in
let rem = data_length % block_length in
Math.Lemmas.nat_over_pos_is_nat data_length block_length;
split_nb_lem block_length data_length n;
Math.Lemmas.euclidean_division_definition data_length block_length;
n, rem
#pop-options
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last
(block_length: pos)
(data: S.seq uint8) :
Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures fun (l, r) ->
S.length l % block_length = 0 /\
(S.length data % block_length = 0 ==> S.length r % block_length = 0) /\
Seq.length r = Seq.length data % block_length /\
0 <= Seq.length r /\ Seq.length r < block_length /\
Seq.length data = Seq.length l + Seq.length r /\
S.append l r == data) =
let n, rem = split_at_last_nb_rem block_length (Seq.length data) in
let l, r = split_block block_length data n in
l, r
#pop-options
/// Second version: the remainder is smaller or equal to a block. We call this
/// version "lazy" because it is used to differ the processing of the last full
/// block in the hash implementations (incremental, streaming...).
#push-options "--z3cliopt smt.arith.nl=false"
let split_at_last_lazy_nb_rem
(l: pos)
(d: nat) :
Pure (nat & nat)
(requires True)
(ensures (fun (n, rem) ->
let blocks = n * l in
rem <= l /\
(rem % l = d % l) /\
(rem = d % l \/ rem = l) /\
(rem = 0 <==> d == 0) /\
(rem = l <==> (blocks = (d / l - 1) * l)) /\
((rem > 0 /\ rem < l) <==> d % l <> 0) /\
(rem = (d % l) <==> (blocks = (d / l) * l)) /\
blocks % l = 0 /\
(blocks / l) * l = blocks
)) =
let n, rem = split_at_last_nb_rem l d in
(**) let blocks = n * l in
(**) Math.Lemmas.euclidean_division_definition blocks l;
(**) assert((blocks / l) * l = blocks);
(**) Math.Lemmas.distributivity_sub_left (d / l) 1 l;
(**) assert((d / l - 1) * l = (d / l) * l - l);
if n > 0 && rem = 0 then
begin
let n' = n - 1 in
(**) let blocks' = n' * l in
let rem' = d - blocks' in
(**) assert(rem = 0);
(**) assert(blocks' = blocks - l);
(**) assert(rem' = l);
(**) Math.Lemmas.nat_times_nat_is_nat n' l;
(**) assert(n' * l >= 0);
(**) assert(d > 0);
(**) Math.Lemmas.lemma_mod_sub_distr blocks l l;
(**) assert(l % l = 0);
(**) assert(blocks' % l = 0);
(**) Math.Lemmas.euclidean_division_definition blocks' l;
(**) assert((blocks' / l) * l = blocks');
n', rem'
end
else
begin
(* Proof interlude *)
(**) begin
(**) assert(d % l <> 0 || n = 0);
(**) if d % l <> 0 then
(**) begin
(**) assert(rem <> 0);
(**) Math.Lemmas.nat_times_nat_is_nat n l;
(**) assert(n * l >= 0)
(**) end
(**) else
(**) begin
(**) assert(n = 0);
(**) assert(d = n * l + rem);
(**) Math.Lemmas.mul_zero_left_is_zero l;
(**) assert(n * l = 0);
(**) assert(d = rem)
(**) end
(**) end;
n, rem
end
#pop-options
inline_for_extraction noextract
let split_at_last_st (block_length: UInt32.t) (data_length: UInt32.t):
Pure (UInt32.t & UInt32.t)
(requires block_length <> 0ul)
(ensures (fun r ->
let n_blocks, rem = r in
let n_blocks', rem' = split_at_last_lazy_nb_rem (UInt32.v block_length) (UInt32.v data_length) in
UInt32.v n_blocks == n_blocks' /\ UInt32.v rem == rem'))
=
let open FStar.UInt32 in
let n_blocks = data_length /^ block_length in
let rem = data_length %^ block_length in
if n_blocks >^ 0ul && rem = 0ul then
let n_blocks' = n_blocks -^ 1ul in
n_blocks', data_length -^ (n_blocks' *^ block_length)
else
n_blocks, rem | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"Lib.IntTypes.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Calc.fsti.checked"
],
"interface_file": false,
"source_file": "Lib.UpdateMulti.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "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": [
"smt.arith.nl=false"
],
"z3refresh": false,
"z3rlimit": 50,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | l: Prims.pos -> b: FStar.Seq.Base.seq Lib.UpdateMulti.uint8
-> Prims.Pure
(FStar.Seq.Base.seq Lib.UpdateMulti.uint8 * FStar.Seq.Base.seq Lib.UpdateMulti.uint8) | Prims.Pure | [] | [] | [
"Prims.pos",
"FStar.Seq.Base.seq",
"Lib.UpdateMulti.uint8",
"Prims.nat",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Pervasives.Native.tuple2",
"FStar.Seq.Properties.split",
"FStar.Mul.op_Star",
"Prims.unit",
"FStar.Math.Lemmas.nat_times_nat_is_nat",
"Lib.UpdateMulti.split_at_last_lazy_nb_rem",
"FStar.Seq.Base.length",
"Prims.l_True",
"Prims.l_and",
"Prims.b2t",
"Prims.op_LessThanOrEqual",
"Prims.op_Equality",
"Prims.int",
"Prims.op_Modulus",
"Prims.l_or",
"Prims.op_GreaterThanOrEqual",
"Prims.op_GreaterThan",
"Prims.l_iff",
"Prims.eq2",
"Prims.op_Subtraction",
"Prims.op_Division",
"Prims.op_LessThan",
"Prims.op_disEquality",
"FStar.Seq.Base.equal",
"FStar.Seq.Base.append"
] | [] | false | false | false | false | false | let split_at_last_lazy (l: pos) (b: S.seq uint8)
: Pure (S.seq uint8 & S.seq uint8)
(requires True)
(ensures
(fun (blocks, rest) ->
S.length rest <= l /\ (S.length rest % l = S.length b % l) /\
(S.length rest = S.length b % l \/ S.length rest = l) /\
(S.length rest = 0 <==> S.length b == 0) /\
(S.length rest = l <==> (S.length blocks = (S.length b / l - 1) * l)) /\
((S.length rest > 0 /\ S.length rest < l) <==> S.length b % l <> 0) /\
(S.length rest = (S.length b % l) <==> (S.length blocks = (S.length b / l) * l)) /\
S.equal (S.append blocks rest) b /\ S.length blocks % l = 0 /\
(S.length blocks / l) * l = S.length blocks)) =
| let n, rem = split_at_last_lazy_nb_rem l (Seq.length b) in
Math.Lemmas.nat_times_nat_is_nat n l;
let blocks, rest = S.split b (n * l) in
blocks, rest | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.parse_sum | val parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: (x: tag_t -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t) | val parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: (x: tag_t -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t) | let parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t)
= parse_tagged_union
pt
tag_of_data
(fun x -> parse_synth ((cases x).p) ((cases x).ty_to_data) ((cases x).data_to_ty)) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 86,
"end_line": 144,
"start_col": 0,
"start_line": 134
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf
let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s)
noeq
type sum_case'
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(case: tag_t)
= | Case:
(ty: Type0) ->
(p: parser_spec ty) ->
(s: serializer_spec p) ->
(ty_to_data: (ty -> Tot (refine_with_tag tag_of_data case))) ->
(data_to_ty: (refine_with_tag tag_of_data case -> Tot ty)) ->
(u: squash (synth_inverse ty_to_data data_to_ty /\ synth_inverse data_to_ty ty_to_data)) ->
sum_case' tag_of_data case
let sum_case = sum_case' | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 |
pt: MiniParse.Spec.Base.parser_spec tag_t ->
tag_of_data: (_: data_t -> tag_t) ->
cases: (x: tag_t -> MiniParse.Spec.TSum.sum_case tag_of_data x)
-> MiniParse.Spec.Base.parser_spec data_t | Prims.Tot | [
"total"
] | [] | [
"MiniParse.Spec.Base.parser_spec",
"MiniParse.Spec.TSum.sum_case",
"MiniParse.Spec.TSum.parse_tagged_union",
"MiniParse.Spec.Combinators.parse_synth",
"MiniParse.Spec.TSum.__proj__Case__item__ty",
"MiniParse.Spec.TSum.refine_with_tag",
"MiniParse.Spec.TSum.__proj__Case__item__p",
"MiniParse.Spec.TSum.__proj__Case__item__ty_to_data",
"MiniParse.Spec.TSum.__proj__Case__item__data_to_ty"
] | [] | false | false | false | false | false | let parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: (x: tag_t -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t) =
| parse_tagged_union pt
tag_of_data
(fun x -> parse_synth ((cases x).p) ((cases x).ty_to_data) ((cases x).data_to_ty)) | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.serialize_tagged_union | val serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p)) | val serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p)) | let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 59,
"end_line": 115,
"start_col": 0,
"start_line": 105
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 |
st: MiniParse.Spec.Base.serializer_spec pt ->
tag_of_data: (_: data_t -> Prims.GTot tag_t) ->
s: (t: tag_t -> MiniParse.Spec.Base.serializer_spec (p t))
-> MiniParse.Spec.Base.serializer_spec (MiniParse.Spec.TSum.parse_tagged_union pt tag_of_data p) | Prims.Tot | [
"total"
] | [] | [
"MiniParse.Spec.Base.parser_spec",
"MiniParse.Spec.Base.serializer_spec",
"MiniParse.Spec.TSum.refine_with_tag",
"MiniParse.Spec.Base.Serializer",
"MiniParse.Spec.TSum.parse_tagged_union",
"MiniParse.Spec.TSum.bare_serialize_tagged_union",
"Prims.unit",
"MiniParse.Spec.TSum.bare_serialize_tagged_union_correct"
] | [] | false | false | false | false | false | let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p)) =
| bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s) | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.serialize_sum | val serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: (x: tag_t -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases)) | val serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: (x: tag_t -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases)) | let serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases))
= serialize_tagged_union
st
tag_of_data
(fun x -> serialize_synth ((cases x).s) ((cases x).ty_to_data) ((cases x).data_to_ty) ()) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 93,
"end_line": 157,
"start_col": 0,
"start_line": 146
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf
let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s)
noeq
type sum_case'
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(case: tag_t)
= | Case:
(ty: Type0) ->
(p: parser_spec ty) ->
(s: serializer_spec p) ->
(ty_to_data: (ty -> Tot (refine_with_tag tag_of_data case))) ->
(data_to_ty: (refine_with_tag tag_of_data case -> Tot ty)) ->
(u: squash (synth_inverse ty_to_data data_to_ty /\ synth_inverse data_to_ty ty_to_data)) ->
sum_case' tag_of_data case
let sum_case = sum_case'
let parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t)
= parse_tagged_union
pt
tag_of_data
(fun x -> parse_synth ((cases x).p) ((cases x).ty_to_data) ((cases x).data_to_ty)) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 |
st: MiniParse.Spec.Base.serializer_spec pt ->
tag_of_data: (_: data_t -> tag_t) ->
cases: (x: tag_t -> MiniParse.Spec.TSum.sum_case tag_of_data x)
-> MiniParse.Spec.Base.serializer_spec (MiniParse.Spec.TSum.parse_sum pt tag_of_data cases) | Prims.Tot | [
"total"
] | [] | [
"MiniParse.Spec.Base.parser_spec",
"MiniParse.Spec.Base.serializer_spec",
"MiniParse.Spec.TSum.sum_case",
"MiniParse.Spec.TSum.serialize_tagged_union",
"MiniParse.Spec.Combinators.parse_synth",
"MiniParse.Spec.TSum.__proj__Case__item__ty",
"MiniParse.Spec.TSum.refine_with_tag",
"MiniParse.Spec.TSum.__proj__Case__item__p",
"MiniParse.Spec.TSum.__proj__Case__item__ty_to_data",
"MiniParse.Spec.TSum.__proj__Case__item__data_to_ty",
"MiniParse.Spec.Combinators.serialize_synth",
"MiniParse.Spec.TSum.__proj__Case__item__s",
"MiniParse.Spec.TSum.parse_sum"
] | [] | false | false | false | false | false | let serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: (x: tag_t -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases)) =
| serialize_tagged_union st
tag_of_data
(fun x -> serialize_synth ((cases x).s) ((cases x).ty_to_data) ((cases x).data_to_ty) ()) | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.bounded_u16_match_t_intro | val bounded_u16_match_t_intro
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(j: bounded_u16_match_t_aux b tag_of_data b)
(x: bounded_u16 b)
: Tot (sum_case tag_of_data x) | val bounded_u16_match_t_intro
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(j: bounded_u16_match_t_aux b tag_of_data b)
(x: bounded_u16 b)
: Tot (sum_case tag_of_data x) | let bounded_u16_match_t_intro
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(j: bounded_u16_match_t_aux b tag_of_data b)
(x: bounded_u16 b)
: Tot (sum_case tag_of_data x)
= j x | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 5,
"end_line": 176,
"start_col": 0,
"start_line": 169
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf
let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s)
noeq
type sum_case'
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(case: tag_t)
= | Case:
(ty: Type0) ->
(p: parser_spec ty) ->
(s: serializer_spec p) ->
(ty_to_data: (ty -> Tot (refine_with_tag tag_of_data case))) ->
(data_to_ty: (refine_with_tag tag_of_data case -> Tot ty)) ->
(u: squash (synth_inverse ty_to_data data_to_ty /\ synth_inverse data_to_ty ty_to_data)) ->
sum_case' tag_of_data case
let sum_case = sum_case'
let parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t)
= parse_tagged_union
pt
tag_of_data
(fun x -> parse_synth ((cases x).p) ((cases x).ty_to_data) ((cases x).data_to_ty))
let serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases))
= serialize_tagged_union
st
tag_of_data
(fun x -> serialize_synth ((cases x).s) ((cases x).ty_to_data) ((cases x).data_to_ty) ())
inline_for_extraction
let bounded_u16_match_t_aux
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b': nat { b' <= b } )
: Tot Type
= (x: bounded_u16 b { U16.v x < b' } ) -> Tot (sum_case tag_of_data x) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
b: Prims.nat ->
tag_of_data: (_: data_t -> MiniParse.Spec.Int.bounded_u16 b) ->
j: MiniParse.Spec.TSum.bounded_u16_match_t_aux b tag_of_data b ->
x: MiniParse.Spec.Int.bounded_u16 b
-> MiniParse.Spec.TSum.sum_case tag_of_data x | Prims.Tot | [
"total"
] | [] | [
"Prims.nat",
"MiniParse.Spec.Int.bounded_u16",
"MiniParse.Spec.TSum.bounded_u16_match_t_aux",
"MiniParse.Spec.TSum.sum_case"
] | [] | false | false | false | false | false | let bounded_u16_match_t_intro
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(j: bounded_u16_match_t_aux b tag_of_data b)
(x: bounded_u16 b)
: Tot (sum_case tag_of_data x) =
| j x | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.bounded_u16_match_t_aux_nil | val bounded_u16_match_t_aux_nil
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
: Tot (bounded_u16_match_t_aux b tag_of_data 0) | val bounded_u16_match_t_aux_nil
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
: Tot (bounded_u16_match_t_aux b tag_of_data 0) | let bounded_u16_match_t_aux_nil
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
: Tot (bounded_u16_match_t_aux b tag_of_data 0)
= fun _ -> false_elim () | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 24,
"end_line": 184,
"start_col": 0,
"start_line": 179
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf
let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s)
noeq
type sum_case'
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(case: tag_t)
= | Case:
(ty: Type0) ->
(p: parser_spec ty) ->
(s: serializer_spec p) ->
(ty_to_data: (ty -> Tot (refine_with_tag tag_of_data case))) ->
(data_to_ty: (refine_with_tag tag_of_data case -> Tot ty)) ->
(u: squash (synth_inverse ty_to_data data_to_ty /\ synth_inverse data_to_ty ty_to_data)) ->
sum_case' tag_of_data case
let sum_case = sum_case'
let parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t)
= parse_tagged_union
pt
tag_of_data
(fun x -> parse_synth ((cases x).p) ((cases x).ty_to_data) ((cases x).data_to_ty))
let serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases))
= serialize_tagged_union
st
tag_of_data
(fun x -> serialize_synth ((cases x).s) ((cases x).ty_to_data) ((cases x).data_to_ty) ())
inline_for_extraction
let bounded_u16_match_t_aux
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b': nat { b' <= b } )
: Tot Type
= (x: bounded_u16 b { U16.v x < b' } ) -> Tot (sum_case tag_of_data x)
inline_for_extraction
let bounded_u16_match_t_intro
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(j: bounded_u16_match_t_aux b tag_of_data b)
(x: bounded_u16 b)
: Tot (sum_case tag_of_data x)
= j x | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | b: Prims.nat -> tag_of_data: (_: data_t -> MiniParse.Spec.Int.bounded_u16 b)
-> MiniParse.Spec.TSum.bounded_u16_match_t_aux b tag_of_data 0 | Prims.Tot | [
"total"
] | [] | [
"Prims.nat",
"MiniParse.Spec.Int.bounded_u16",
"Prims.b2t",
"Prims.op_LessThan",
"FStar.UInt16.v",
"FStar.Pervasives.false_elim",
"MiniParse.Spec.TSum.sum_case",
"MiniParse.Spec.TSum.bounded_u16_match_t_aux"
] | [] | false | false | false | false | false | let bounded_u16_match_t_aux_nil
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
: Tot (bounded_u16_match_t_aux b tag_of_data 0) =
| fun _ -> false_elim () | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.bounded_u16_match_t_aux_cons_nil | val bounded_u16_match_t_aux_cons_nil
(b: nat{b > 0})
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(y: sum_case #_ #(bounded_u16 b) tag_of_data 0us)
: Tot (bounded_u16_match_t_aux b tag_of_data 1) | val bounded_u16_match_t_aux_cons_nil
(b: nat{b > 0})
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(y: sum_case #_ #(bounded_u16 b) tag_of_data 0us)
: Tot (bounded_u16_match_t_aux b tag_of_data 1) | let bounded_u16_match_t_aux_cons_nil
(b: nat { b > 0 } )
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(y: sum_case #_ #(bounded_u16 b) tag_of_data 0us)
: Tot (bounded_u16_match_t_aux b tag_of_data 1)
= fun (x: bounded_u16 b { U16.v x < 1 } ) -> (
y
) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 3,
"end_line": 195,
"start_col": 0,
"start_line": 187
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf
let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s)
noeq
type sum_case'
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(case: tag_t)
= | Case:
(ty: Type0) ->
(p: parser_spec ty) ->
(s: serializer_spec p) ->
(ty_to_data: (ty -> Tot (refine_with_tag tag_of_data case))) ->
(data_to_ty: (refine_with_tag tag_of_data case -> Tot ty)) ->
(u: squash (synth_inverse ty_to_data data_to_ty /\ synth_inverse data_to_ty ty_to_data)) ->
sum_case' tag_of_data case
let sum_case = sum_case'
let parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t)
= parse_tagged_union
pt
tag_of_data
(fun x -> parse_synth ((cases x).p) ((cases x).ty_to_data) ((cases x).data_to_ty))
let serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases))
= serialize_tagged_union
st
tag_of_data
(fun x -> serialize_synth ((cases x).s) ((cases x).ty_to_data) ((cases x).data_to_ty) ())
inline_for_extraction
let bounded_u16_match_t_aux
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b': nat { b' <= b } )
: Tot Type
= (x: bounded_u16 b { U16.v x < b' } ) -> Tot (sum_case tag_of_data x)
inline_for_extraction
let bounded_u16_match_t_intro
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(j: bounded_u16_match_t_aux b tag_of_data b)
(x: bounded_u16 b)
: Tot (sum_case tag_of_data x)
= j x
inline_for_extraction
let bounded_u16_match_t_aux_nil
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
: Tot (bounded_u16_match_t_aux b tag_of_data 0)
= fun _ -> false_elim () | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
b: Prims.nat{b > 0} ->
tag_of_data: (_: data_t -> MiniParse.Spec.Int.bounded_u16 b) ->
y: MiniParse.Spec.TSum.sum_case tag_of_data 0us
-> MiniParse.Spec.TSum.bounded_u16_match_t_aux b tag_of_data 1 | Prims.Tot | [
"total"
] | [] | [
"Prims.nat",
"Prims.b2t",
"Prims.op_GreaterThan",
"MiniParse.Spec.Int.bounded_u16",
"MiniParse.Spec.TSum.sum_case",
"FStar.UInt16.__uint_to_t",
"Prims.op_LessThan",
"FStar.UInt16.v",
"MiniParse.Spec.TSum.bounded_u16_match_t_aux"
] | [] | false | false | false | false | false | let bounded_u16_match_t_aux_cons_nil
(b: nat{b > 0})
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(y: sum_case #_ #(bounded_u16 b) tag_of_data 0us)
: Tot (bounded_u16_match_t_aux b tag_of_data 1) =
| fun (x: bounded_u16 b {U16.v x < 1}) -> (y) | false |
Hacl.Impl.RSAPSS.Keys.fst | Hacl.Impl.RSAPSS.Keys.new_rsapss_load_pkey | val new_rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
new_rsapss_load_pkey_st t ke modBits | val new_rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
new_rsapss_load_pkey_st t ke modBits | let new_rsapss_load_pkey #t ke modBits kc r eBits nb eb =
[@inline_let] let bits = size (bits t) in
if not (rsapss_check_pkey_len #t modBits eBits) then
B.null
else
let h0 = ST.get () in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let pkeyLen = nLen +! nLen +! eLen in
let pkey = LowStar.Monotonic.Buffer.mmalloc_partial r (uint #t 0) pkeyLen in
if B.is_null pkey then
pkey
else
let h1 = ST.get () in
B.(modifies_only_not_unused_in loc_none h0 h1);
assert (B.len pkey == pkeyLen);
let pkey: Lib.Buffer.buffer (limb t) = pkey in
assert (B.length pkey == FStar.UInt32.v pkeyLen);
let pkey: lbignum t pkeyLen = pkey in
let b = rsapss_load_pkey ke modBits kc eBits nb eb pkey in
let h2 = ST.get () in
B.(modifies_only_not_unused_in loc_none h0 h2);
LS.rsapss_load_pkey_lemma #t (v modBits) (v eBits) (as_seq h0 nb) (as_seq h0 eb);
if b then pkey else begin
B.free (pkey <: buffer (limb t));
B.null end | {
"file_name": "code/rsapss/Hacl.Impl.RSAPSS.Keys.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 18,
"end_line": 362,
"start_col": 0,
"start_line": 336
} | module Hacl.Impl.RSAPSS.Keys
open FStar.HyperStack
open FStar.HyperStack.ST
open FStar.Mul
open Lib.IntTypes
open Lib.Buffer
open Hacl.Bignum.Definitions
module ST = FStar.HyperStack.ST
module B = LowStar.Buffer
module HS = FStar.HyperStack
module LSeq = Lib.Sequence
module LS = Hacl.Spec.RSAPSS
module BM = Hacl.Bignum.Montgomery
module BN = Hacl.Bignum
module BB = Hacl.Spec.Bignum.Base
module BE = Hacl.Bignum.Exponentiation
#reset-options "--z3rlimit 50 --fuel 0 --ifuel 0"
inline_for_extraction noextract
val rsapss_check_pkey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t ->
res:bool{res <==> LS.pkey_len_pre t (v modBits) (v eBits)}
let rsapss_check_pkey_len #t modBits eBits =
if 1ul <. modBits && 0ul <. eBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
nLen <=. 0xfffffffful /. (2ul *! bits) && eLen <=. 0xfffffffful /. bits &&
nLen +! nLen <=. 0xfffffffful -. eLen end
else false
inline_for_extraction noextract
val rsapss_check_skey_len:
#t:limb_t
-> modBits:size_t
-> eBits:size_t
-> dBits:size_t ->
res:bool{res <==> LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
let rsapss_check_skey_len #t modBits eBits dBits =
if rsapss_check_pkey_len #t modBits eBits && 0ul <. dBits then begin
[@inline_let] let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
dLen <=. 0xfffffffful /. bits &&
2ul *! nLen <=. 0xfffffffful -! eLen -! dLen end
else false
inline_for_extraction noextract
let bn_check_num_bits_st (t:limb_t) =
bs:size_t{0 < v bs /\ bits t * v (blocks bs (size (bits t))) <= max_size_t}
-> b:lbignum t (blocks bs (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h b)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.bn_check_num_bits (v bs) (as_seq h0 b))
inline_for_extraction noextract
val bn_check_num_bits: #t:limb_t -> bn_check_num_bits_st t
let bn_check_num_bits #t bs b =
[@inline_let] let bits = size (bits t) in
let bLen = blocks bs bits in
if bs =. bits *! bLen then ones t SEC else BN.bn_lt_pow2_mask bLen b bs
inline_for_extraction noextract
let rsapss_check_modulus_st (t:limb_t) =
modBits:size_t{0 < v modBits /\ bits t * v (blocks modBits (size (bits t))) <= max_size_t}
-> n:lbignum t (blocks modBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h n)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_modulus (v modBits) (as_seq h0 n))
inline_for_extraction noextract
val rsapss_check_modulus:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_modulus_st t
let rsapss_check_modulus #t bn_check_num_bits modBits n =
let nLen = blocks modBits (size (bits t)) in
let bits0 = BN.bn_is_odd nLen n in
let m0 = uint #t 0 -. bits0 in
let m1 = BN.bn_gt_pow2_mask nLen n (modBits -! 1ul) in
let m2 = bn_check_num_bits modBits n in
m0 &. (m1 &. m2)
inline_for_extraction noextract
let rsapss_check_exponent_st (t:limb_t) =
eBits:size_t{0 < v eBits /\ bits t * v (blocks eBits (size (bits t))) <= max_size_t}
-> e:lbignum t (blocks eBits (size (bits t))) ->
Stack (limb t)
(requires fun h -> live h e)
(ensures fun h0 r h1 -> modifies0 h0 h1 /\
r == LS.rsapss_check_exponent (v eBits) (as_seq h0 e))
inline_for_extraction noextract
val rsapss_check_exponent:
#t:limb_t
-> bn_check_num_bits:bn_check_num_bits_st t ->
rsapss_check_exponent_st t
let rsapss_check_exponent #t bn_check_num_bits eBits e =
let eLen = blocks eBits (size (bits t)) in
let m0 = BN.bn_is_zero_mask eLen e in
let m1 = bn_check_num_bits eBits e in
(lognot m0) &. m1
inline_for_extraction noextract
class rsapss_checks (t:limb_t) = {
check_num_bits: bn_check_num_bits_st t;
check_modulus: rsapss_check_modulus_st t;
check_exponent: rsapss_check_exponent_st t;
}
[@CInline]
let check_num_bits_u32 : bn_check_num_bits_st U32 =
bn_check_num_bits
[@CInline]
let check_modulus_u32 : rsapss_check_modulus_st U32 =
rsapss_check_modulus check_num_bits_u32
[@CInline]
let check_exponent_u32 : rsapss_check_exponent_st U32 =
rsapss_check_exponent check_num_bits_u32
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint32: rsapss_checks U32
let mk_runtime_rsapss_checks_uint32 = {
check_num_bits = check_num_bits_u32;
check_modulus = check_modulus_u32;
check_exponent = check_exponent_u32;
}
[@CInline]
let check_num_bits_u64 : bn_check_num_bits_st U64 =
bn_check_num_bits
[@CInline]
let check_modulus_u64 : rsapss_check_modulus_st U64 =
rsapss_check_modulus check_num_bits_u64
[@CInline]
let check_exponent_u64 : rsapss_check_exponent_st U64 =
rsapss_check_exponent check_num_bits_u64
inline_for_extraction noextract
val mk_runtime_rsapss_checks_uint64: rsapss_checks U64
let mk_runtime_rsapss_checks_uint64 = {
check_num_bits = check_num_bits_u64;
check_modulus = check_modulus_u64;
check_exponent = check_exponent_u64;
}
inline_for_extraction noextract
let mk_runtime_rsapss_checks (#t:limb_t) : rsapss_checks t =
match t with
| U32 -> mk_runtime_rsapss_checks_uint32
| U64 -> mk_runtime_rsapss_checks_uint64
//pkey = [n; r2; e]
inline_for_extraction noextract
let rsapss_load_pkey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t{LS.pkey_len_pre t (v modBits) (v eBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> pkey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h pkey /\
disjoint pkey nb /\ disjoint pkey eb)
(ensures fun h0 b h1 -> modifies (loc pkey) h0 h1 /\
(b, as_seq h1 pkey) == LS.rsapss_load_pkey (v modBits) (v eBits) (as_seq h0 nb) (as_seq h0 eb))
inline_for_extraction noextract
val rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
rsapss_load_pkey_st t ke modBits
let rsapss_load_pkey #t ke modBits kc eBits nb eb pkey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
assert (v ((modBits -! 1ul) /. bits) < v nLen);
LS.blocks_bits_lemma t (v modBits);
assert (v (blocks nbLen numb) == v nLen);
LS.blocks_bits_lemma t (v eBits);
assert (v (blocks ebLen numb) == v eLen);
let n = sub pkey 0ul nLen in
let r2 = sub pkey nLen nLen in
let e = sub pkey (nLen +! nLen) eLen in
BN.bn_from_bytes_be nbLen nb n;
ke.BE.precompr2 (modBits -! 1ul) n r2;
BN.bn_from_bytes_be ebLen eb e;
let h1 = ST.get () in
LSeq.lemma_concat3 (v nLen) (as_seq h1 n)
(v nLen) (as_seq h1 r2) (v eLen) (as_seq h1 e) (as_seq h1 pkey);
let m0 = kc.check_modulus modBits n in
let m1 = kc.check_exponent eBits e in
let m = m0 &. m1 in
BB.unsafe_bool_of_limb #t m
#set-options "--z3rlimit 300"
//skey = [pkey; d]
inline_for_extraction noextract
let rsapss_load_skey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
eBits:size_t
-> dBits:size_t{LS.skey_len_pre t (v modBits) (v eBits) (v dBits)}
-> nb:lbuffer uint8 (blocks modBits 8ul)
-> eb:lbuffer uint8 (blocks eBits 8ul)
-> db:lbuffer uint8 (blocks dBits 8ul)
-> skey:lbignum t (2ul *! blocks modBits (size (bits t)) +! blocks eBits (size (bits t)) +! blocks dBits (size (bits t))) ->
Stack bool
(requires fun h ->
blocks modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ live h db /\ live h skey /\
disjoint skey nb /\ disjoint skey eb /\ disjoint skey db)
(ensures fun h0 b h1 -> modifies (loc skey) h0 h1 /\
(b, as_seq h1 skey) == LS.rsapss_load_skey (v modBits) (v eBits) (v dBits)
(as_seq h0 nb) (as_seq h0 eb) (as_seq h0 db))
inline_for_extraction noextract
val rsapss_load_skey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t
-> rsapss_load_pkey:rsapss_load_pkey_st t ke modBits ->
rsapss_load_skey_st t ke modBits
let rsapss_load_skey #t ke modBits kc rsapss_load_pkey eBits dBits nb eb db skey =
let h0 = ST.get () in
[@inline_let] let bits = size (bits t) in
[@inline_let] let numb = size (numbytes t) in
let nbLen = blocks modBits 8ul in
let ebLen = blocks eBits 8ul in
let dbLen = blocks dBits 8ul in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let dLen = blocks dBits bits in
let pkeyLen = nLen +! nLen +! eLen in
let skeyLen = pkeyLen +! eLen in
LS.blocks_bits_lemma t (v dBits);
assert (v (blocks dbLen numb) == v dLen);
let pkey = sub skey 0ul pkeyLen in
let d = sub skey pkeyLen dLen in
let b = rsapss_load_pkey eBits nb eb pkey in
BN.bn_from_bytes_be dbLen db d;
let h1 = ST.get () in
LSeq.lemma_concat2 (v pkeyLen) (as_seq h1 pkey) (v dLen) (as_seq h1 d) (as_seq h1 skey);
let m1 = kc.check_exponent dBits d in
let b1 = b && BB.unsafe_bool_of_limb m1 in
b1
inline_for_extraction noextract
let new_rsapss_load_pkey_st (t:limb_t) (ke:BE.exp t) (modBits:size_t) =
r:HS.rid
-> eBits:size_t
-> nb:lbuffer uint8 (blocks0 modBits 8ul)
-> eb:lbuffer uint8 (blocks0 eBits 8ul) ->
ST (B.buffer (limb t))
(requires fun h ->
blocks0 modBits (size (bits t)) == ke.BE.bn.BN.len /\
live h nb /\ live h eb /\ ST.is_eternal_region r)
(ensures fun h0 pkey h1 -> B.(modifies loc_none h0 h1) /\
not (B.g_is_null pkey) ==> (
LS.pkey_len_pre t (v modBits) (v eBits) /\
B.(fresh_loc (loc_buffer pkey) h0 h1) /\
B.freeable pkey /\
B.(loc_includes (loc_region_only false r) (loc_buffer pkey)) /\
(let bits = size (bits t) in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let pkeyLen = nLen +! nLen +! eLen in
B.len pkey == pkeyLen /\
(let pkey = pkey <: lbignum t pkeyLen in
LS.rsapss_load_pkey_post (v modBits) (v eBits)
(as_seq h0 nb) (as_seq h0 eb) (as_seq h1 pkey)))))
inline_for_extraction noextract
val new_rsapss_load_pkey:
#t:limb_t
-> ke:BE.exp t
-> modBits:size_t
-> kc:rsapss_checks t ->
new_rsapss_load_pkey_st t ke modBits | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"LowStar.Monotonic.Buffer.fsti.checked",
"LowStar.Buffer.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Buffer.fsti.checked",
"Hacl.Spec.RSAPSS.fst.checked",
"Hacl.Spec.Bignum.Base.fst.checked",
"Hacl.Bignum.Montgomery.fsti.checked",
"Hacl.Bignum.Exponentiation.fsti.checked",
"Hacl.Bignum.Definitions.fst.checked",
"Hacl.Bignum.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Tactics.Typeclasses.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.HyperStack.ST.fsti.checked",
"FStar.HyperStack.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Impl.RSAPSS.Keys.fst"
} | [
{
"abbrev": true,
"full_module": "Hacl.Bignum.Exponentiation",
"short_module": "BE"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.Bignum.Base",
"short_module": "BB"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum",
"short_module": "BN"
},
{
"abbrev": true,
"full_module": "Hacl.Bignum.Montgomery",
"short_module": "BM"
},
{
"abbrev": true,
"full_module": "Hacl.Spec.RSAPSS",
"short_module": "LS"
},
{
"abbrev": true,
"full_module": "Lib.Sequence",
"short_module": "LSeq"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack.ST",
"short_module": "ST"
},
{
"abbrev": false,
"full_module": "Hacl.Bignum.Definitions",
"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.ST",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.HyperStack",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.RSAPSS",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 0,
"initial_ifuel": 0,
"max_fuel": 0,
"max_ifuel": 0,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 300,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
ke: Hacl.Bignum.Exponentiation.exp t ->
modBits: Lib.IntTypes.size_t ->
kc: Hacl.Impl.RSAPSS.Keys.rsapss_checks t
-> Hacl.Impl.RSAPSS.Keys.new_rsapss_load_pkey_st t ke modBits | Prims.Tot | [
"total"
] | [] | [
"Hacl.Bignum.Definitions.limb_t",
"Hacl.Bignum.Exponentiation.exp",
"Lib.IntTypes.size_t",
"Hacl.Impl.RSAPSS.Keys.rsapss_checks",
"FStar.Monotonic.HyperHeap.rid",
"Lib.Buffer.lbuffer",
"Lib.IntTypes.uint8",
"Hacl.Bignum.Definitions.blocks0",
"FStar.UInt32.__uint_to_t",
"Prims.op_Negation",
"Hacl.Impl.RSAPSS.Keys.rsapss_check_pkey_len",
"LowStar.Buffer.null",
"Hacl.Bignum.Definitions.limb",
"LowStar.Buffer.buffer",
"Prims.bool",
"Prims.unit",
"LowStar.Monotonic.Buffer.free",
"LowStar.Buffer.trivial_preorder",
"Lib.Buffer.buffer",
"Hacl.Spec.RSAPSS.rsapss_load_pkey_lemma",
"Lib.IntTypes.v",
"Lib.IntTypes.U32",
"Lib.IntTypes.PUB",
"Lib.Buffer.as_seq",
"Lib.Buffer.MUT",
"LowStar.Monotonic.Buffer.modifies_only_not_unused_in",
"LowStar.Monotonic.Buffer.loc_none",
"FStar.Monotonic.HyperStack.mem",
"FStar.HyperStack.ST.get",
"Hacl.Impl.RSAPSS.Keys.rsapss_load_pkey",
"Hacl.Bignum.Definitions.lbignum",
"Prims._assert",
"Prims.eq2",
"Prims.int",
"Prims.l_or",
"FStar.UInt.size",
"FStar.UInt32.n",
"Prims.b2t",
"Prims.op_GreaterThanOrEqual",
"LowStar.Monotonic.Buffer.length",
"FStar.UInt32.v",
"Lib.Buffer.buffer_t",
"FStar.UInt32.t",
"LowStar.Monotonic.Buffer.len",
"LowStar.Monotonic.Buffer.is_null",
"LowStar.Monotonic.Buffer.mbuffer",
"Prims.l_imp",
"LowStar.Monotonic.Buffer.g_is_null",
"Prims.l_and",
"Prims.nat",
"LowStar.Monotonic.Buffer.frameOf",
"LowStar.Monotonic.Buffer.freeable",
"LowStar.Monotonic.Buffer.mmalloc_partial",
"Lib.IntTypes.uint",
"Lib.IntTypes.SEC",
"LowStar.Monotonic.Buffer.lmbuffer_or_null",
"Lib.IntTypes.int_t",
"Lib.IntTypes.op_Plus_Bang",
"Lib.IntTypes.range",
"Prims.op_GreaterThan",
"Prims.op_LessThanOrEqual",
"Prims.op_Subtraction",
"Prims.pow2",
"Prims.op_Multiply",
"Hacl.Spec.Bignum.Definitions.blocks",
"Hacl.Bignum.Definitions.blocks",
"Lib.IntTypes.size",
"Lib.IntTypes.bits"
] | [] | false | false | false | false | false | let new_rsapss_load_pkey #t ke modBits kc r eBits nb eb =
| [@@ inline_let ]let bits = size (bits t) in
if not (rsapss_check_pkey_len #t modBits eBits)
then B.null
else
let h0 = ST.get () in
let nLen = blocks modBits bits in
let eLen = blocks eBits bits in
let pkeyLen = nLen +! nLen +! eLen in
let pkey = LowStar.Monotonic.Buffer.mmalloc_partial r (uint #t 0) pkeyLen in
if B.is_null pkey
then pkey
else
let h1 = ST.get () in
(let open B in modifies_only_not_unused_in loc_none h0 h1);
assert (B.len pkey == pkeyLen);
let pkey:Lib.Buffer.buffer (limb t) = pkey in
assert (B.length pkey == FStar.UInt32.v pkeyLen);
let pkey:lbignum t pkeyLen = pkey in
let b = rsapss_load_pkey ke modBits kc eBits nb eb pkey in
let h2 = ST.get () in
(let open B in modifies_only_not_unused_in loc_none h0 h2);
LS.rsapss_load_pkey_lemma #t (v modBits) (v eBits) (as_seq h0 nb) (as_seq h0 eb);
if b
then pkey
else
(B.free (pkey <: buffer (limb t));
B.null) | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.bare_serialize_tagged_union_correct | val bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Lemma
(ensures
(serializer_correct (parse_tagged_union pt tag_of_data p)
(bare_serialize_tagged_union st tag_of_data s))) | val bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Lemma
(ensures
(serializer_correct (parse_tagged_union pt tag_of_data p)
(bare_serialize_tagged_union st tag_of_data s))) | let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 28,
"end_line": 103,
"start_col": 0,
"start_line": 63
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 |
st: MiniParse.Spec.Base.serializer_spec pt ->
tag_of_data: (_: data_t -> Prims.GTot tag_t) ->
s: (t: tag_t -> MiniParse.Spec.Base.serializer_spec (p t))
-> FStar.Pervasives.Lemma
(ensures
MiniParse.Spec.Base.serializer_correct (MiniParse.Spec.TSum.parse_tagged_union pt
tag_of_data
p)
(MiniParse.Spec.TSum.bare_serialize_tagged_union st tag_of_data s)) | FStar.Pervasives.Lemma | [
"lemma"
] | [] | [
"MiniParse.Spec.Base.parser_spec",
"MiniParse.Spec.Base.serializer_spec",
"MiniParse.Spec.TSum.refine_with_tag",
"FStar.Classical.forall_intro",
"Prims.eq2",
"FStar.Pervasives.Native.option",
"FStar.Pervasives.Native.tuple2",
"MiniParse.Spec.Base.consumed_length",
"MiniParse.Spec.TSum.bare_serialize_tagged_union",
"MiniParse.Spec.Base.parse",
"MiniParse.Spec.TSum.parse_tagged_union",
"FStar.Pervasives.Native.Some",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Seq.Base.length",
"MiniParse.Spec.Base.byte",
"Prims.unit",
"Prims.l_True",
"Prims.squash",
"Prims.Nil",
"FStar.Pervasives.pattern",
"MiniParse.Spec.Base.serialize",
"MiniParse.Spec.Combinators.seq_slice_append_r",
"Prims._assert",
"FStar.Seq.Base.seq",
"FStar.Seq.Base.append",
"Prims.nat",
"MiniParse.Spec.Base.injective_postcond",
"MiniParse.Spec.Base.coerce_to_bare_parser",
"MiniParse.Spec.Base.injective_precond",
"Prims.b2t",
"FStar.Pervasives.Native.uu___is_Some",
"MiniParse.Spec.Base.no_lookahead_on_postcond",
"MiniParse.Spec.Base.no_lookahead_on_precond",
"MiniParse.Spec.Combinators.seq_slice_append_l",
"FStar.Seq.Base.slice",
"Prims.op_LessThanOrEqual",
"MiniParse.Spec.Base.no_lookahead_on",
"MiniParse.Spec.Base.serializer_correct"
] | [] | false | false | true | false | false | let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t -> Tot (parser_spec (refine_with_tag tag_of_data t))))
(s: (t: tag_t -> Tot (serializer_spec (p t))))
: Lemma
(ensures
(serializer_correct (parse_tagged_union pt tag_of_data p)
(bare_serialize_tagged_union st tag_of_data s))) =
| let prf (x: data_t)
: Lemma
(parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) ==
Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x))) =
let t = tag_of_data x in
let u:refine_with_tag tag_of_data t = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt)
(serialize st t)
(bare_serialize_tagged_union st tag_of_data s x));
let Some (_, len') = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt)
(serialize st t)
(bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt)
(serialize st t)
(bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt)
(serialize st t)
(bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt)
(serialize st t)
(bare_serialize_tagged_union st tag_of_data s x));
let Some (x1, len1) = v1 in
let Some (x1', len1') = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x ==
Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.bounded_u16_match_t_aux_cons | val bounded_u16_match_t_aux_cons
(b: nat{b > 0})
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b': nat{b' < b /\ b' < 256})
(b_: bounded_u16 b {U16.v b_ == b'})
(z: sum_case #_ #(bounded_u16 b) tag_of_data b_)
(y: bounded_u16_match_t_aux b tag_of_data b')
: Tot (bounded_u16_match_t_aux b tag_of_data (b' + 1)) | val bounded_u16_match_t_aux_cons
(b: nat{b > 0})
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b': nat{b' < b /\ b' < 256})
(b_: bounded_u16 b {U16.v b_ == b'})
(z: sum_case #_ #(bounded_u16 b) tag_of_data b_)
(y: bounded_u16_match_t_aux b tag_of_data b')
: Tot (bounded_u16_match_t_aux b tag_of_data (b' + 1)) | let bounded_u16_match_t_aux_cons
(b: nat { b > 0 } )
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b' : nat {b' < b /\ b' < 256 })
(b_: bounded_u16 b { U16.v b_ == b' } )
(z: sum_case #_ #(bounded_u16 b) tag_of_data b_)
(y: bounded_u16_match_t_aux b tag_of_data b')
: Tot (bounded_u16_match_t_aux b tag_of_data (b' + 1))
= fun (x: bounded_u16 b { U16.v x < b' + 1 } ) ->
if x `U16.lt` U16.uint_to_t b'
then y x
else (z <: sum_case #_ #(bounded_u16 b) tag_of_data x) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 56,
"end_line": 210,
"start_col": 0,
"start_line": 198
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t)
let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
)
let bare_serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (bare_serializer data_t)
= fun (d: data_t) ->
let tg = tag_of_data d in
Seq.append (serialize st tg) (serialize (s tg) d)
let bare_serialize_tagged_union_correct
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Lemma
(ensures (serializer_correct (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s)))
= (* same proof as nondep_then *)
let prf
(x: data_t)
: Lemma (parse (parse_tagged_union pt tag_of_data p) (bare_serialize_tagged_union st tag_of_data s x) == Some (x, Seq.length (bare_serialize_tagged_union st tag_of_data s x)))
= let t = tag_of_data x in
let (u: refine_with_tag tag_of_data t) = x in
let v1' = parse pt (bare_serialize_tagged_union st tag_of_data s x) in
let v1 = parse pt (serialize st t) in
assert (Some? v1);
assert (no_lookahead_on (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (_, len')) = parse pt (serialize st t) in
assert (len' == Seq.length (serialize st t));
assert (len' <= Seq.length (bare_serialize_tagged_union st tag_of_data s x));
assert (Seq.slice (serialize st t) 0 len' == serialize st t);
seq_slice_append_l (serialize st t) (serialize (s t) u);
assert (no_lookahead_on_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (no_lookahead_on_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (Some? v1');
assert (injective_precond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
assert (injective_postcond (coerce_to_bare_parser _ pt) (serialize st t) (bare_serialize_tagged_union st tag_of_data s x));
let (Some (x1, len1)) = v1 in
let (Some (x1', len1')) = v1' in
assert (x1 == x1');
assert ((len1 <: nat) == (len1' <: nat));
assert (x1 == t);
assert (len1 == Seq.length (serialize st t));
assert (bare_serialize_tagged_union st tag_of_data s x == Seq.append (serialize st t) (serialize (s t) u));
seq_slice_append_r (serialize st t) (serialize (s t) u);
()
in
Classical.forall_intro prf
let serialize_tagged_union
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(#p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
(s: (t: tag_t) -> Tot (serializer_spec (p t)))
: Tot (serializer_spec (parse_tagged_union pt tag_of_data p))
= bare_serialize_tagged_union_correct st tag_of_data s;
Serializer (bare_serialize_tagged_union st tag_of_data s)
noeq
type sum_case'
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(case: tag_t)
= | Case:
(ty: Type0) ->
(p: parser_spec ty) ->
(s: serializer_spec p) ->
(ty_to_data: (ty -> Tot (refine_with_tag tag_of_data case))) ->
(data_to_ty: (refine_with_tag tag_of_data case -> Tot ty)) ->
(u: squash (synth_inverse ty_to_data data_to_ty /\ synth_inverse data_to_ty ty_to_data)) ->
sum_case' tag_of_data case
let sum_case = sum_case'
let parse_sum
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (parser_spec data_t)
= parse_tagged_union
pt
tag_of_data
(fun x -> parse_synth ((cases x).p) ((cases x).ty_to_data) ((cases x).data_to_ty))
let serialize_sum
(#tag_t: Type0)
(#pt: parser_spec tag_t)
(st: serializer_spec pt)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot tag_t))
(cases: ((x: tag_t) -> Tot (sum_case tag_of_data x)))
: Tot (serializer_spec (parse_sum pt tag_of_data cases))
= serialize_tagged_union
st
tag_of_data
(fun x -> serialize_synth ((cases x).s) ((cases x).ty_to_data) ((cases x).data_to_ty) ())
inline_for_extraction
let bounded_u16_match_t_aux
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b': nat { b' <= b } )
: Tot Type
= (x: bounded_u16 b { U16.v x < b' } ) -> Tot (sum_case tag_of_data x)
inline_for_extraction
let bounded_u16_match_t_intro
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(j: bounded_u16_match_t_aux b tag_of_data b)
(x: bounded_u16 b)
: Tot (sum_case tag_of_data x)
= j x
inline_for_extraction
let bounded_u16_match_t_aux_nil
(b: nat)
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
: Tot (bounded_u16_match_t_aux b tag_of_data 0)
= fun _ -> false_elim ()
inline_for_extraction
let bounded_u16_match_t_aux_cons_nil
(b: nat { b > 0 } )
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(y: sum_case #_ #(bounded_u16 b) tag_of_data 0us)
: Tot (bounded_u16_match_t_aux b tag_of_data 1)
= fun (x: bounded_u16 b { U16.v x < 1 } ) -> (
y
) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
b: Prims.nat{b > 0} ->
tag_of_data: (_: data_t -> MiniParse.Spec.Int.bounded_u16 b) ->
b': Prims.nat{b' < b /\ b' < 256} ->
b_: MiniParse.Spec.Int.bounded_u16 b {FStar.UInt16.v b_ == b'} ->
z: MiniParse.Spec.TSum.sum_case tag_of_data b_ ->
y: MiniParse.Spec.TSum.bounded_u16_match_t_aux b tag_of_data b'
-> MiniParse.Spec.TSum.bounded_u16_match_t_aux b tag_of_data (b' + 1) | Prims.Tot | [
"total"
] | [] | [
"Prims.nat",
"Prims.b2t",
"Prims.op_GreaterThan",
"MiniParse.Spec.Int.bounded_u16",
"Prims.l_and",
"Prims.op_LessThan",
"Prims.eq2",
"Prims.int",
"Prims.l_or",
"FStar.UInt.size",
"FStar.UInt16.n",
"Prims.op_GreaterThanOrEqual",
"FStar.UInt16.v",
"MiniParse.Spec.TSum.sum_case",
"MiniParse.Spec.TSum.bounded_u16_match_t_aux",
"Prims.op_Addition",
"FStar.UInt16.lt",
"FStar.UInt16.uint_to_t",
"Prims.bool"
] | [] | false | false | false | false | false | let bounded_u16_match_t_aux_cons
(b: nat{b > 0})
(#data_t: Type0)
(tag_of_data: (data_t -> Tot (bounded_u16 b)))
(b': nat{b' < b /\ b' < 256})
(b_: bounded_u16 b {U16.v b_ == b'})
(z: sum_case #_ #(bounded_u16 b) tag_of_data b_)
(y: bounded_u16_match_t_aux b tag_of_data b')
: Tot (bounded_u16_match_t_aux b tag_of_data (b' + 1)) =
| fun (x: bounded_u16 b {U16.v x < b' + 1}) ->
if x `U16.lt` (U16.uint_to_t b') then y x else (z <: sum_case #_ #(bounded_u16 b) tag_of_data x) | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.mem_correspondence_1 | val mem_correspondence_1 : src: Vale.Arch.HeapTypes_s.base_typ ->
t: Vale.Arch.HeapTypes_s.base_typ ->
x: Vale.Interop.Base.buf_t src t ->
h: FStar.Monotonic.HyperStack.mem ->
s: Vale.X64.State.vale_state
-> Prims.GTot Prims.prop | let mem_correspondence_1
(src t:ME.base_typ)
(x:IB.buf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_buffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t))) | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 56,
"end_line": 87,
"start_col": 0,
"start_line": 77
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i))
[@__reduce__]
let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128
//////////////////////////////////////////////////////////////////////////////////////////
//lowstar_sig pre post:
// Interepreting a vale pre/post as a Low* function type
//////////////////////////////////////////////////////////////////////////////////////////
let hprop = HS.mem -> prop
let hsprop = HS.mem -> VS.vale_state -> prop
module IB = Vale.Interop.Base | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.Interop.Base",
"short_module": "IB"
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
src: Vale.Arch.HeapTypes_s.base_typ ->
t: Vale.Arch.HeapTypes_s.base_typ ->
x: Vale.Interop.Base.buf_t src t ->
h: FStar.Monotonic.HyperStack.mem ->
s: Vale.X64.State.vale_state
-> Prims.GTot Prims.prop | Prims.GTot | [
"sometrivial"
] | [] | [
"Vale.Arch.HeapTypes_s.base_typ",
"Vale.Interop.Base.buf_t",
"FStar.Monotonic.HyperStack.mem",
"Vale.X64.State.vale_state",
"FStar.Seq.Base.equal",
"Vale.Interop.Types.base_typ_as_type",
"Vale.AsLowStar.LowStarSig.nat_to_uint_seq_t",
"Vale.X64.Memory.buffer_as_seq",
"Vale.X64.Memory.get_vale_heap",
"Vale.X64.State.__proj__Mkvale_state__item__vs_heap",
"LowStar.BufferView.Up.as_seq",
"LowStar.BufferView.Up.mk_buffer",
"FStar.UInt8.t",
"Vale.AsLowStar.LowStarSig.view_of_base_typ",
"Prims.unit",
"LowStar.BufferView.Down.length_eq",
"LowStar.BufferView.Down.buffer",
"Vale.Interop.Types.get_downview",
"LowStar.Buffer.trivial_preorder",
"Vale.Arch.HeapImpl.buffer",
"Vale.X64.MemoryAdapters.as_vale_buffer",
"Prims.prop"
] | [] | false | false | false | false | true | let mem_correspondence_1 (src t: ME.base_typ) (x: IB.buf_t src t) (h: HS.mem) (s: VS.vale_state) =
| let y = as_vale_buffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal (nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t))) | false |
|
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.view_of_base_typ | val view_of_base_typ (t: ME.base_typ) : UV.view UInt8.t (base_typ_as_type t) | val view_of_base_typ (t: ME.base_typ) : UV.view UInt8.t (base_typ_as_type t) | let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128 | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 47,
"end_line": 66,
"start_col": 0,
"start_line": 58
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i)) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | t: Vale.Arch.HeapTypes_s.base_typ
-> LowStar.BufferView.Up.view FStar.UInt8.t (Vale.Interop.Types.base_typ_as_type t) | Prims.Tot | [
"total"
] | [] | [
"Vale.Arch.HeapTypes_s.base_typ",
"Vale.Interop.Views.up_view8",
"Vale.Interop.Views.up_view16",
"Vale.Interop.Views.up_view32",
"Vale.Interop.Views.up_view64",
"Vale.Interop.Views.up_view128",
"LowStar.BufferView.Up.view",
"FStar.UInt8.t",
"Vale.Interop.Types.base_typ_as_type"
] | [] | false | false | false | false | false | let view_of_base_typ (t: ME.base_typ) : UV.view UInt8.t (base_typ_as_type t) =
| let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128 | false |
MiniParse.Spec.TSum.fst | MiniParse.Spec.TSum.parse_tagged_union | val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t) | val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t) | let parse_tagged_union #tag_t pt #data_t tag_of_data p =
pt `and_then` (fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)
) | {
"file_name": "examples/miniparse/MiniParse.Spec.TSum.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 3,
"end_line": 48,
"start_col": 0,
"start_line": 45
} | (*
Copyright 2008-2018 Microsoft Research
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*)
module MiniParse.Spec.TSum
include MiniParse.Spec.Combinators
include MiniParse.Spec.Int
module Seq = FStar.Seq
module U16 = FStar.UInt16
inline_for_extraction
let refine_with_tag (#tag_t: Type0) (#data_t: Type0) (tag_of_data: (data_t -> GTot tag_t)) (x: tag_t) : Tot Type0 =
(y: data_t { tag_of_data y == x } )
inline_for_extraction
let synth_tagged_union_data
(#tag_t: Type0)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(tg: tag_t)
(x: refine_with_tag tag_of_data tg)
: Tot data_t
= x
val parse_tagged_union
(#tag_t: Type0)
(pt: parser_spec tag_t)
(#data_t: Type0)
(tag_of_data: (data_t -> GTot tag_t))
(p: (t: tag_t) -> Tot (parser_spec (refine_with_tag tag_of_data t)))
: Tot (parser_spec data_t) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"MiniParse.Spec.Int.fst.checked",
"MiniParse.Spec.Combinators.fst.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "MiniParse.Spec.TSum.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.UInt16",
"short_module": "U16"
},
{
"abbrev": true,
"full_module": "FStar.Seq",
"short_module": "Seq"
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Int",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "MiniParse.Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 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 |
pt: MiniParse.Spec.Base.parser_spec tag_t ->
tag_of_data: (_: data_t -> Prims.GTot tag_t) ->
p:
(t: tag_t
-> MiniParse.Spec.Base.parser_spec (MiniParse.Spec.TSum.refine_with_tag tag_of_data t))
-> MiniParse.Spec.Base.parser_spec data_t | Prims.Tot | [
"total"
] | [] | [
"MiniParse.Spec.Base.parser_spec",
"MiniParse.Spec.TSum.refine_with_tag",
"MiniParse.Spec.Combinators.and_then",
"MiniParse.Spec.Combinators.parse_synth'",
"MiniParse.Spec.TSum.synth_tagged_union_data"
] | [] | false | false | false | false | false | let parse_tagged_union #tag_t pt #data_t tag_of_data p =
| pt
`and_then`
(fun (tg: tag_t) ->
parse_synth' #(refine_with_tag tag_of_data tg) (p tg) (synth_tagged_union_data tag_of_data tg)) | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.mem_imm_correspondence_1 | val mem_imm_correspondence_1 : src: Vale.Arch.HeapTypes_s.base_typ ->
t: Vale.Arch.HeapTypes_s.base_typ ->
x: Vale.Interop.Base.ibuf_t src t ->
h: FStar.Monotonic.HyperStack.mem ->
s: Vale.X64.State.vale_state
-> Prims.GTot Prims.prop | let mem_imm_correspondence_1
(src t:ME.base_typ)
(x:IB.ibuf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_immbuffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t))) | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 56,
"end_line": 100,
"start_col": 0,
"start_line": 90
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i))
[@__reduce__]
let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128
//////////////////////////////////////////////////////////////////////////////////////////
//lowstar_sig pre post:
// Interepreting a vale pre/post as a Low* function type
//////////////////////////////////////////////////////////////////////////////////////////
let hprop = HS.mem -> prop
let hsprop = HS.mem -> VS.vale_state -> prop
module IB = Vale.Interop.Base
[@__reduce__]
let mem_correspondence_1
(src t:ME.base_typ)
(x:IB.buf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_buffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.Interop.Base",
"short_module": "IB"
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
src: Vale.Arch.HeapTypes_s.base_typ ->
t: Vale.Arch.HeapTypes_s.base_typ ->
x: Vale.Interop.Base.ibuf_t src t ->
h: FStar.Monotonic.HyperStack.mem ->
s: Vale.X64.State.vale_state
-> Prims.GTot Prims.prop | Prims.GTot | [
"sometrivial"
] | [] | [
"Vale.Arch.HeapTypes_s.base_typ",
"Vale.Interop.Base.ibuf_t",
"FStar.Monotonic.HyperStack.mem",
"Vale.X64.State.vale_state",
"FStar.Seq.Base.equal",
"Vale.Interop.Types.base_typ_as_type",
"Vale.AsLowStar.LowStarSig.nat_to_uint_seq_t",
"Vale.X64.Memory.buffer_as_seq",
"Vale.X64.Memory.get_vale_heap",
"Vale.X64.State.__proj__Mkvale_state__item__vs_heap",
"LowStar.BufferView.Up.as_seq",
"LowStar.BufferView.Up.mk_buffer",
"FStar.UInt8.t",
"Vale.AsLowStar.LowStarSig.view_of_base_typ",
"Prims.unit",
"LowStar.BufferView.Down.length_eq",
"LowStar.BufferView.Down.buffer",
"Vale.Interop.Types.get_downview",
"LowStar.ImmutableBuffer.immutable_preorder",
"Vale.Arch.HeapImpl.buffer",
"Vale.X64.MemoryAdapters.as_vale_immbuffer",
"Prims.prop"
] | [] | false | false | false | false | true | let mem_imm_correspondence_1
(src t: ME.base_typ)
(x: IB.ibuf_t src t)
(h: HS.mem)
(s: VS.vale_state)
=
| let y = as_vale_immbuffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal (nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t))) | false |
|
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.to_low_pre | val to_low_pre
(#max_arity: nat)
(#arg_reg: IX64.arg_reg_relation max_arity)
(pre: VSig.vale_pre_tl [])
(args: IX64.arg_list)
(hs_mem: mem_roots args)
: prop | val to_low_pre
(#max_arity: nat)
(#arg_reg: IX64.arg_reg_relation max_arity)
(pre: VSig.vale_pre_tl [])
(args: IX64.arg_list)
(hs_mem: mem_roots args)
: prop | let to_low_pre
(#max_arity:nat)
(#arg_reg:IX64.arg_reg_relation max_arity)
(pre:VSig.vale_pre_tl [])
(args:IX64.arg_list)
(hs_mem:mem_roots args)
: prop =
(forall (s0:V.va_state).
V.va_get_ok s0 /\
vale_pre_hyp #max_arity #arg_reg args s0 /\
mem_correspondence args hs_mem s0 ==>
elim_nil pre s0) | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 20,
"end_line": 238,
"start_col": 0,
"start_line": 227
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i))
[@__reduce__]
let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128
//////////////////////////////////////////////////////////////////////////////////////////
//lowstar_sig pre post:
// Interepreting a vale pre/post as a Low* function type
//////////////////////////////////////////////////////////////////////////////////////////
let hprop = HS.mem -> prop
let hsprop = HS.mem -> VS.vale_state -> prop
module IB = Vale.Interop.Base
[@__reduce__]
let mem_correspondence_1
(src t:ME.base_typ)
(x:IB.buf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_buffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t)))
[@__reduce__]
let mem_imm_correspondence_1
(src t:ME.base_typ)
(x:IB.ibuf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_immbuffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t)))
[@__reduce__]
let rec mem_correspondence (args:list arg) : hsprop =
match args with
| [] -> fun h s -> True
| hd :: tl ->
let (| tag, x |) = hd in
match tag with
| TD_Buffer src bt _ ->
fun h s ->
mem_correspondence_1 src bt x h s /\
mem_correspondence tl h s
| TD_ImmBuffer src bt _ ->
fun h s ->
mem_imm_correspondence_1 src bt x h s /\
mem_correspondence tl h s
| TD_Base _ ->
mem_correspondence tl
[@__reduce__]
let arg_as_nat64 (a:arg) (s:VS.vale_state) : GTot ME.nat64 =
let (| tag, x |) = a in
let open ME in
match tag with
| TD_Base TUInt8 ->
UInt8.v x
| TD_Base TUInt16 ->
UInt16.v x
| TD_Base TUInt32 ->
UInt32.v x
| TD_Base TUInt64 ->
UInt64.v x
| TD_Buffer src bt _ ->
buffer_addr_is_nat64 (as_vale_buffer #src #bt x) s;
ME.buffer_addr (as_vale_buffer #src #bt x) (ME.get_vale_heap s.VS.vs_heap)
| TD_ImmBuffer src bt _ ->
buffer_addr_is_nat64 (as_vale_immbuffer #src #bt x) s;
ME.buffer_addr (as_vale_immbuffer #src #bt x) (ME.get_vale_heap s.VS.vs_heap)
[@__reduce__]
let rec register_args (max_arity:nat)
(arg_reg:IX64.arg_reg_relation max_arity)
(n:nat)
(args:list arg{List.Tot.length args = n}) : VSig.sprop =
match args with
| [] -> (fun s -> True)
| hd::tl ->
fun s ->
register_args max_arity arg_reg (n - 1) tl s /\
(if n > max_arity then True // This arg is passed on the stack
else VS.eval_reg_64 (arg_reg.IX64.of_arg (n - 1)) s == arg_as_nat64 hd s)
[@__reduce__]
let rec stack_args (max_arity:nat)
(n:nat)
(args:list arg{List.Tot.length args = n})
: VSig.sprop =
match args with
| [] -> (fun s -> True)
| hd::tl ->
fun s ->
stack_args max_arity (n - 1) tl s /\
(if n <= max_arity then True // This arg is passed in registers
else
let ptr = ((n - max_arity) - 1) * 8
+ (if IA.win then 32 else 0)
+ 8
+ VS.eval_reg_64 MS.rRsp s
in
SI.valid_stack_slot64 ptr s.VS.vs_stack MS.Public s.VS.vs_stackTaint /\
SI.load_stack64 ptr s.VS.vs_stack == arg_as_nat64 hd s)
[@__reduce__]
let taint_hyp_arg (m:ME.vale_heap) (tm:MS.memTaint_t) (a:arg) =
let (| tag, x |) = a in
match tag with
| TD_Buffer src TUInt64 {taint=tnt} ->
ME.valid_taint_buf64
(as_vale_buffer #src #TUInt64 x)
m
tm
tnt
| TD_Buffer src TUInt128 {taint=tnt} ->
ME.valid_taint_buf128
(as_vale_buffer #src #TUInt128 x)
m
tm
tnt
| TD_ImmBuffer src TUInt64 {taint=tnt} ->
ME.valid_taint_buf64
(as_vale_immbuffer #src #TUInt64 x)
m
tm
tnt
| TD_ImmBuffer src TUInt128 {taint=tnt} ->
ME.valid_taint_buf128
(as_vale_immbuffer #src #TUInt128 x)
m
tm
tnt
| _ ->
True
[@__reduce__]
let taint_hyp (args:list arg) : VSig.sprop =
fun s0 -> BigOps.big_and' (taint_hyp_arg (ME.get_vale_heap s0.VS.vs_heap) (full_heap_taint s0.VS.vs_heap)) args
[@__reduce__]
let vale_pre_hyp
(#max_arity:nat)
(#arg_reg:IX64.arg_reg_relation max_arity)
(args:IX64.arg_list)
: VSig.sprop =
fun s0 ->
V.state_inv s0 /\
ME.is_initial_heap s0.VS.vs_heap.vf_layout s0.VS.vs_heap.vf_heap /\
ME.get_heaplet_id s0.VS.vs_heap.vf_heap == None /\
VSig.disjoint_or_eq args /\
VSig.readable args (ME.get_vale_heap s0.VS.vs_heap) /\
register_args max_arity arg_reg (List.length args) args s0 /\
stack_args max_arity (List.length args) args s0 /\
VS.eval_reg_64 MS.rRsp s0 == SI.init_rsp s0.VS.vs_stack /\
taint_hyp args s0 | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.Interop.Base",
"short_module": "IB"
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
pre: Vale.AsLowStar.ValeSig.vale_pre_tl [] ->
args: Vale.Interop.X64.arg_list ->
hs_mem: Vale.Interop.Base.mem_roots args
-> Prims.prop | Prims.Tot | [
"total"
] | [] | [
"Prims.nat",
"Vale.Interop.X64.arg_reg_relation",
"Vale.AsLowStar.ValeSig.vale_pre_tl",
"Prims.Nil",
"Vale.Interop.Base.td",
"Vale.Interop.X64.arg_list",
"Vale.Interop.Base.mem_roots",
"Prims.l_Forall",
"Vale.X64.Decls.va_state",
"Prims.l_imp",
"Prims.l_and",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.AsLowStar.LowStarSig.vale_pre_hyp",
"Vale.AsLowStar.LowStarSig.mem_correspondence",
"Vale.Interop.Base.elim_nil",
"Prims.prop"
] | [] | false | false | false | false | true | let to_low_pre
(#max_arity: nat)
(#arg_reg: IX64.arg_reg_relation max_arity)
(pre: VSig.vale_pre_tl [])
(args: IX64.arg_list)
(hs_mem: mem_roots args)
: prop =
| (forall (s0: V.va_state).
V.va_get_ok s0 /\ vale_pre_hyp #max_arity #arg_reg args s0 /\ mem_correspondence args hs_mem s0 ==>
elim_nil pre s0) | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.to_low_post | val to_low_post
(post: VSig.vale_post_tl [])
(args: list arg)
(hs_mem0: mem_roots args)
(res: UInt64.t)
(hs_mem1: mem_roots args)
: prop | val to_low_post
(post: VSig.vale_post_tl [])
(args: list arg)
(hs_mem0: mem_roots args)
(res: UInt64.t)
(hs_mem1: mem_roots args)
: prop | let to_low_post
(post:VSig.vale_post_tl [])
(args:list arg)
(hs_mem0:mem_roots args)
(res:UInt64.t)
(hs_mem1:mem_roots args)
: prop =
let open V in
B.modifies (loc_modified_args args) hs_mem0 hs_mem1 /\
(exists
(s0:va_state)
(s1:va_state)
(f:va_fuel).
mem_correspondence args hs_mem0 s0 /\
mem_correspondence args hs_mem1 s1 /\
UInt64.v res == VS.eval_reg_64 MS.rRax s1 /\
elim_nil post s0 s1 f) | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 29,
"end_line": 257,
"start_col": 0,
"start_line": 241
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul
[@__reduce__]
let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x
let uint_to_nat (t:ME.base_typ) (x:base_typ_as_type t)
: ME.base_typ_as_vale_type t
= let open ME in
match t with
| TUInt8 -> UInt8.v x
| TUInt16 -> UInt16.v x
| TUInt32 -> UInt32.v x
| TUInt64 -> UInt64.v x
| TUInt128 -> x
let nat_to_uint_seq_t
(t:ME.base_typ)
(b:Seq.seq (ME.base_typ_as_vale_type t))
: Seq.seq (base_typ_as_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> nat_to_uint t (Seq.index b i))
let uint_to_nat_seq_t
(t:ME.base_typ)
(b:Seq.seq (base_typ_as_type t))
: Seq.seq (ME.base_typ_as_vale_type t)
= Seq.init (Seq.length b) (fun (i:nat{i < Seq.length b}) -> uint_to_nat t (Seq.index b i))
[@__reduce__]
let view_of_base_typ (t:ME.base_typ)
: UV.view UInt8.t (base_typ_as_type t)
= let open ME in
match t with
| TUInt8 -> Vale.Interop.Views.up_view8
| TUInt16 -> Vale.Interop.Views.up_view16
| TUInt32 -> Vale.Interop.Views.up_view32
| TUInt64 -> Vale.Interop.Views.up_view64
| TUInt128 -> Vale.Interop.Views.up_view128
//////////////////////////////////////////////////////////////////////////////////////////
//lowstar_sig pre post:
// Interepreting a vale pre/post as a Low* function type
//////////////////////////////////////////////////////////////////////////////////////////
let hprop = HS.mem -> prop
let hsprop = HS.mem -> VS.vale_state -> prop
module IB = Vale.Interop.Base
[@__reduce__]
let mem_correspondence_1
(src t:ME.base_typ)
(x:IB.buf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_buffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t)))
[@__reduce__]
let mem_imm_correspondence_1
(src t:ME.base_typ)
(x:IB.ibuf_t src t)
(h:HS.mem)
(s:VS.vale_state) =
let y = as_vale_immbuffer x in
let db = get_downview x in
DV.length_eq db;
Seq.equal
(nat_to_uint_seq_t t (ME.buffer_as_seq (ME.get_vale_heap s.VS.vs_heap) y))
(UV.as_seq h (UV.mk_buffer db (view_of_base_typ t)))
[@__reduce__]
let rec mem_correspondence (args:list arg) : hsprop =
match args with
| [] -> fun h s -> True
| hd :: tl ->
let (| tag, x |) = hd in
match tag with
| TD_Buffer src bt _ ->
fun h s ->
mem_correspondence_1 src bt x h s /\
mem_correspondence tl h s
| TD_ImmBuffer src bt _ ->
fun h s ->
mem_imm_correspondence_1 src bt x h s /\
mem_correspondence tl h s
| TD_Base _ ->
mem_correspondence tl
[@__reduce__]
let arg_as_nat64 (a:arg) (s:VS.vale_state) : GTot ME.nat64 =
let (| tag, x |) = a in
let open ME in
match tag with
| TD_Base TUInt8 ->
UInt8.v x
| TD_Base TUInt16 ->
UInt16.v x
| TD_Base TUInt32 ->
UInt32.v x
| TD_Base TUInt64 ->
UInt64.v x
| TD_Buffer src bt _ ->
buffer_addr_is_nat64 (as_vale_buffer #src #bt x) s;
ME.buffer_addr (as_vale_buffer #src #bt x) (ME.get_vale_heap s.VS.vs_heap)
| TD_ImmBuffer src bt _ ->
buffer_addr_is_nat64 (as_vale_immbuffer #src #bt x) s;
ME.buffer_addr (as_vale_immbuffer #src #bt x) (ME.get_vale_heap s.VS.vs_heap)
[@__reduce__]
let rec register_args (max_arity:nat)
(arg_reg:IX64.arg_reg_relation max_arity)
(n:nat)
(args:list arg{List.Tot.length args = n}) : VSig.sprop =
match args with
| [] -> (fun s -> True)
| hd::tl ->
fun s ->
register_args max_arity arg_reg (n - 1) tl s /\
(if n > max_arity then True // This arg is passed on the stack
else VS.eval_reg_64 (arg_reg.IX64.of_arg (n - 1)) s == arg_as_nat64 hd s)
[@__reduce__]
let rec stack_args (max_arity:nat)
(n:nat)
(args:list arg{List.Tot.length args = n})
: VSig.sprop =
match args with
| [] -> (fun s -> True)
| hd::tl ->
fun s ->
stack_args max_arity (n - 1) tl s /\
(if n <= max_arity then True // This arg is passed in registers
else
let ptr = ((n - max_arity) - 1) * 8
+ (if IA.win then 32 else 0)
+ 8
+ VS.eval_reg_64 MS.rRsp s
in
SI.valid_stack_slot64 ptr s.VS.vs_stack MS.Public s.VS.vs_stackTaint /\
SI.load_stack64 ptr s.VS.vs_stack == arg_as_nat64 hd s)
[@__reduce__]
let taint_hyp_arg (m:ME.vale_heap) (tm:MS.memTaint_t) (a:arg) =
let (| tag, x |) = a in
match tag with
| TD_Buffer src TUInt64 {taint=tnt} ->
ME.valid_taint_buf64
(as_vale_buffer #src #TUInt64 x)
m
tm
tnt
| TD_Buffer src TUInt128 {taint=tnt} ->
ME.valid_taint_buf128
(as_vale_buffer #src #TUInt128 x)
m
tm
tnt
| TD_ImmBuffer src TUInt64 {taint=tnt} ->
ME.valid_taint_buf64
(as_vale_immbuffer #src #TUInt64 x)
m
tm
tnt
| TD_ImmBuffer src TUInt128 {taint=tnt} ->
ME.valid_taint_buf128
(as_vale_immbuffer #src #TUInt128 x)
m
tm
tnt
| _ ->
True
[@__reduce__]
let taint_hyp (args:list arg) : VSig.sprop =
fun s0 -> BigOps.big_and' (taint_hyp_arg (ME.get_vale_heap s0.VS.vs_heap) (full_heap_taint s0.VS.vs_heap)) args
[@__reduce__]
let vale_pre_hyp
(#max_arity:nat)
(#arg_reg:IX64.arg_reg_relation max_arity)
(args:IX64.arg_list)
: VSig.sprop =
fun s0 ->
V.state_inv s0 /\
ME.is_initial_heap s0.VS.vs_heap.vf_layout s0.VS.vs_heap.vf_heap /\
ME.get_heaplet_id s0.VS.vs_heap.vf_heap == None /\
VSig.disjoint_or_eq args /\
VSig.readable args (ME.get_vale_heap s0.VS.vs_heap) /\
register_args max_arity arg_reg (List.length args) args s0 /\
stack_args max_arity (List.length args) args s0 /\
VS.eval_reg_64 MS.rRsp s0 == SI.init_rsp s0.VS.vs_stack /\
taint_hyp args s0
[@__reduce__]
let to_low_pre
(#max_arity:nat)
(#arg_reg:IX64.arg_reg_relation max_arity)
(pre:VSig.vale_pre_tl [])
(args:IX64.arg_list)
(hs_mem:mem_roots args)
: prop =
(forall (s0:V.va_state).
V.va_get_ok s0 /\
vale_pre_hyp #max_arity #arg_reg args s0 /\
mem_correspondence args hs_mem s0 ==>
elim_nil pre s0) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.Interop.Base",
"short_module": "IB"
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
post: Vale.AsLowStar.ValeSig.vale_post_tl [] ->
args: Prims.list Vale.Interop.Base.arg ->
hs_mem0: Vale.Interop.Base.mem_roots args ->
res: FStar.UInt64.t ->
hs_mem1: Vale.Interop.Base.mem_roots args
-> Prims.prop | Prims.Tot | [
"total"
] | [] | [
"Vale.AsLowStar.ValeSig.vale_post_tl",
"Prims.Nil",
"Vale.Interop.Base.td",
"Prims.list",
"Vale.Interop.Base.arg",
"Vale.Interop.Base.mem_roots",
"FStar.UInt64.t",
"Prims.l_and",
"LowStar.Monotonic.Buffer.modifies",
"Vale.Interop.Base.loc_modified_args",
"Prims.l_Exists",
"Vale.X64.Decls.va_state",
"Vale.X64.Decls.va_fuel",
"Vale.AsLowStar.LowStarSig.mem_correspondence",
"Prims.eq2",
"Prims.int",
"Prims.l_or",
"FStar.UInt.size",
"FStar.UInt64.n",
"Prims.b2t",
"Prims.op_GreaterThanOrEqual",
"Prims.op_LessThan",
"Vale.Def.Words_s.pow2_64",
"FStar.UInt64.v",
"Vale.X64.State.eval_reg_64",
"Vale.X64.Machine_s.rRax",
"Vale.Interop.Base.elim_nil",
"Prims.prop"
] | [] | false | false | false | false | true | let to_low_post
(post: VSig.vale_post_tl [])
(args: list arg)
(hs_mem0: mem_roots args)
(res: UInt64.t)
(hs_mem1: mem_roots args)
: prop =
| let open V in
B.modifies (loc_modified_args args) hs_mem0 hs_mem1 /\
(exists (s0: va_state) (s1: va_state) (f: va_fuel).
mem_correspondence args hs_mem0 s0 /\ mem_correspondence args hs_mem1 s1 /\
UInt64.v res == VS.eval_reg_64 MS.rRax s1 /\ elim_nil post s0 s1 f) | false |
Vale.AsLowStar.LowStarSig.fst | Vale.AsLowStar.LowStarSig.nat_to_uint | val nat_to_uint (t: ME.base_typ) (x: ME.base_typ_as_vale_type t) : base_typ_as_type t | val nat_to_uint (t: ME.base_typ) (x: ME.base_typ_as_vale_type t) : base_typ_as_type t | let nat_to_uint (t:ME.base_typ) (x:ME.base_typ_as_vale_type t)
: base_typ_as_type t
= let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x | {
"file_name": "vale/code/arch/x64/interop/Vale.AsLowStar.LowStarSig.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 19,
"end_line": 30,
"start_col": 0,
"start_line": 22
} | module Vale.AsLowStar.LowStarSig
open Vale.Arch.HeapImpl
open Vale.X64.MemoryAdapters
open Vale.Interop.Base
module B = LowStar.Buffer
module BS = Vale.X64.Machine_Semantics_s
module UV = LowStar.BufferView.Up
module DV = LowStar.BufferView.Down
module HS = FStar.HyperStack
module ME = Vale.X64.Memory
module SI = Vale.X64.Stack_i
module MS = Vale.X64.Machine_s
module IA = Vale.Interop.Assumptions
module V = Vale.X64.Decls
module VS = Vale.X64.State
module IX64 = Vale.Interop.X64
module VSig = Vale.AsLowStar.ValeSig
module Map16 = Vale.Lib.Map16
open FStar.Mul | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.Stack_i.fsti.checked",
"Vale.X64.Regs.fsti.checked",
"Vale.X64.MemoryAdapters.fsti.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_Semantics_s.fst.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.Lib.Map16.fsti.checked",
"Vale.Interop.X64.fsti.checked",
"Vale.Interop.Views.fsti.checked",
"Vale.Interop.Base.fst.checked",
"Vale.Interop.Assumptions.fst.checked",
"Vale.AsLowStar.ValeSig.fst.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"prims.fst.checked",
"LowStar.BufferView.Up.fsti.checked",
"LowStar.BufferView.Down.fsti.checked",
"LowStar.Buffer.fst.checked",
"FStar.UInt8.fsti.checked",
"FStar.UInt64.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.UInt16.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.List.fst.checked",
"FStar.HyperStack.fst.checked",
"FStar.BigOps.fsti.checked"
],
"interface_file": false,
"source_file": "Vale.AsLowStar.LowStarSig.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Vale.Lib.Map16",
"short_module": "Map16"
},
{
"abbrev": true,
"full_module": "Vale.AsLowStar.ValeSig",
"short_module": "VSig"
},
{
"abbrev": true,
"full_module": "Vale.Interop.X64",
"short_module": "IX64"
},
{
"abbrev": true,
"full_module": "Vale.X64.State",
"short_module": "VS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Decls",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "Vale.Interop.Assumptions",
"short_module": "IA"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_s",
"short_module": "MS"
},
{
"abbrev": true,
"full_module": "Vale.X64.Stack_i",
"short_module": "SI"
},
{
"abbrev": true,
"full_module": "Vale.X64.Memory",
"short_module": "ME"
},
{
"abbrev": true,
"full_module": "FStar.HyperStack",
"short_module": "HS"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Down",
"short_module": "DV"
},
{
"abbrev": true,
"full_module": "LowStar.BufferView.Up",
"short_module": "UV"
},
{
"abbrev": true,
"full_module": "Vale.X64.Machine_Semantics_s",
"short_module": "BS"
},
{
"abbrev": true,
"full_module": "LowStar.Buffer",
"short_module": "B"
},
{
"abbrev": false,
"full_module": "Vale.Interop.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.MemoryAdapters",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AsLowStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | t: Vale.Arch.HeapTypes_s.base_typ -> x: Vale.X64.Memory.base_typ_as_vale_type t
-> Vale.Interop.Types.base_typ_as_type t | Prims.Tot | [
"total"
] | [] | [
"Vale.Arch.HeapTypes_s.base_typ",
"Vale.X64.Memory.base_typ_as_vale_type",
"FStar.UInt8.uint_to_t",
"FStar.UInt16.uint_to_t",
"FStar.UInt32.uint_to_t",
"FStar.UInt64.uint_to_t",
"Vale.Interop.Types.base_typ_as_type"
] | [] | false | false | false | false | false | let nat_to_uint (t: ME.base_typ) (x: ME.base_typ_as_vale_type t) : base_typ_as_type t =
| let open ME in
match t with
| TUInt8 -> UInt8.uint_to_t x
| TUInt16 -> UInt16.uint_to_t x
| TUInt32 -> UInt32.uint_to_t x
| TUInt64 -> UInt64.uint_to_t x
| TUInt128 -> x | false |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.