effect
stringclasses
48 values
original_source_type
stringlengths
0
23k
opens_and_abbrevs
listlengths
2
92
isa_cross_project_example
bool
1 class
source_definition
stringlengths
9
57.9k
partial_definition
stringlengths
7
23.3k
is_div
bool
2 classes
is_type
null
is_proof
bool
2 classes
completed_definiton
stringlengths
1
250k
dependencies
dict
effect_flags
listlengths
0
2
ideal_premises
listlengths
0
236
mutual_with
listlengths
0
11
file_context
stringlengths
0
407k
interleaved
bool
1 class
is_simply_typed
bool
2 classes
file_name
stringlengths
5
48
vconfig
dict
is_simple_lemma
null
source_type
stringlengths
10
23k
proof_features
listlengths
0
1
name
stringlengths
8
95
source
dict
verbose_type
stringlengths
1
7.42k
source_range
dict
Prims.Tot
val decode32_bounded_integer_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == decode_bounded_integer 3 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let decode32_bounded_integer_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 { y == decode_bounded_integer 3 (B32.reveal b) } ) = be_to_n_3 b
val decode32_bounded_integer_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == decode_bounded_integer 3 (B32.reveal b)}) let decode32_bounded_integer_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == decode_bounded_integer 3 (B32.reveal b)}) =
false
null
false
be_to_n_3 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.be_to_n_3", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.decode_bounded_integer", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val decode32_bounded_integer_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == decode_bounded_integer 3 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.decode32_bounded_integer_3
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 3 -> y: LowParse.Spec.BoundedInt.bounded_integer 3 {y == LowParse.Spec.BoundedInt.decode_bounded_integer 3 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 46, "start_col": 2, "start_line": 46 }
Prims.Tot
val bounded_integer_of_le_32_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == bounded_integer_of_le 2 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let bounded_integer_of_le_32_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 { y == bounded_integer_of_le 2 (B32.reveal b) } ) = le_to_n_2 b
val bounded_integer_of_le_32_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == bounded_integer_of_le 2 (B32.reveal b)}) let bounded_integer_of_le_32_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == bounded_integer_of_le 2 (B32.reveal b)}) =
false
null
false
le_to_n_2 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.le_to_n_2", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.bounded_integer_of_le", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val bounded_integer_of_le_32_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == bounded_integer_of_le 2 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.bounded_integer_of_le_32_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 2 -> y: LowParse.Spec.BoundedInt.bounded_integer 2 {y == LowParse.Spec.BoundedInt.bounded_integer_of_le 2 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 142, "start_col": 2, "start_line": 142 }
Prims.Tot
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let n_to_le_3 = norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_le (EI.bounded_integer 3) 3)
let n_to_le_3 =
false
null
false
norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_le (EI.bounded_integer 3) 3)
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Pervasives.norm", "Prims.Cons", "FStar.Pervasives.norm_step", "FStar.Pervasives.delta_attr", "Prims.string", "Prims.Nil", "FStar.Pervasives.iota", "FStar.Pervasives.zeta", "FStar.Pervasives.primops", "LowParse.SLow.Endianness.n_to_le_t", "LowParse.Spec.BoundedInt.bounded_integer", "LowP...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val n_to_le_3 : LowParse.SLow.Endianness.n_to_le_t (LowParse.Spec.Endianness.Instances.bounded_integer 3) 3
[]
LowParse.SLow.BoundedInt.n_to_le_3
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
LowParse.SLow.Endianness.n_to_le_t (LowParse.Spec.Endianness.Instances.bounded_integer 3) 3
{ "end_col": 112, "end_line": 220, "start_col": 16, "start_line": 220 }
Prims.Tot
val bounded_integer_of_le_32_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == bounded_integer_of_le 3 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let bounded_integer_of_le_32_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 { y == bounded_integer_of_le 3 (B32.reveal b) } ) = le_to_n_3 b
val bounded_integer_of_le_32_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == bounded_integer_of_le 3 (B32.reveal b)}) let bounded_integer_of_le_32_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == bounded_integer_of_le 3 (B32.reveal b)}) =
false
null
false
le_to_n_3 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.le_to_n_3", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.bounded_integer_of_le", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val bounded_integer_of_le_32_3 (b: B32.lbytes 3) : Tot (y: bounded_integer 3 {y == bounded_integer_of_le 3 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.bounded_integer_of_le_32_3
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 3 -> y: LowParse.Spec.BoundedInt.bounded_integer 3 {y == LowParse.Spec.BoundedInt.bounded_integer_of_le 3 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 152, "start_col": 2, "start_line": 152 }
Prims.Tot
val parse32_bounded_int32_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_4 min max = parse32_bounded_int32' min max 4ul
val parse32_bounded_int32_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32))) let parse32_bounded_int32_4 min max =
false
null
false
parse32_bounded_int32' min max 4ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.parse32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bound...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_4
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 16777216 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32 (FStar.UInt32.v min32 ) ...
{ "end_col": 36, "end_line": 283, "start_col": 2, "start_line": 283 }
Prims.Tot
val bounded_integer_of_le_32_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == bounded_integer_of_le 1 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let bounded_integer_of_le_32_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 { y == bounded_integer_of_le 1 (B32.reveal b) } ) = le_to_n_1 b
val bounded_integer_of_le_32_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == bounded_integer_of_le 1 (B32.reveal b)}) let bounded_integer_of_le_32_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == bounded_integer_of_le 1 (B32.reveal b)}) =
false
null
false
le_to_n_1 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.le_to_n_1", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.bounded_integer_of_le", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val bounded_integer_of_le_32_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == bounded_integer_of_le 1 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.bounded_integer_of_le_32_1
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 1 -> y: LowParse.Spec.BoundedInt.bounded_integer 1 {y == LowParse.Spec.BoundedInt.bounded_integer_of_le 1 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 132, "start_col": 2, "start_line": 132 }
Prims.Tot
val parse32_bounded_int32_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_2 min max = parse32_bounded_int32' min max 2ul
val parse32_bounded_int32_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32))) let parse32_bounded_int32_2 min max =
false
null
false
parse32_bounded_int32' min max 2ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.parse32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bound...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 256 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 65536 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32 (FStar.UInt32.v min32 ) (FSta...
{ "end_col": 36, "end_line": 275, "start_col": 2, "start_line": 275 }
Prims.Tot
val parse32_bounded_int32_le_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_le_1 min max = parse32_bounded_int32_le' min max 1ul
val parse32_bounded_int32_le_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32))) let parse32_bounded_int32_le_1 min max =
false
null
false
parse32_bounded_int32_le' min max 1ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "LowParse.SLow.BoundedInt.parse32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bo...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_le_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_le_1
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 256 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32_le (FStar.UInt32.v min32 ) (FSta...
{ "end_col": 39, "end_line": 344, "start_col": 2, "start_line": 344 }
Prims.Tot
val parse32_bounded_int32_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_1 min max = parse32_bounded_int32' min max 1ul
val parse32_bounded_int32_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32))) let parse32_bounded_int32_1 min max =
false
null
false
parse32_bounded_int32' min max 1ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "LowParse.SLow.BoundedInt.parse32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bound...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_1
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 256 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32 (FStar.UInt32.v min32 ) (FStar.UIn...
{ "end_col": 36, "end_line": 271, "start_col": 2, "start_line": 271 }
Prims.Tot
val bounded_integer_of_le_32 (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == bounded_integer_of_le sz (B32.reveal b)}))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let bounded_integer_of_le_32 (sz: integer_size) : Tot ((b: B32.lbytes sz) -> Tot (y: bounded_integer sz { y == bounded_integer_of_le sz (B32.reveal b) } ) ) = match sz with | 1 -> bounded_integer_of_le_32_1 | 2 -> bounded_integer_of_le_32_2 | 3 -> bounded_integer_of_le_32_3 | 4 -> bounded_integer_of_le_...
val bounded_integer_of_le_32 (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == bounded_integer_of_le sz (B32.reveal b)})) let bounded_integer_of_le_32 (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == bounded_integer_of_le sz (B32.reveal b)})) =
false
null
false
match sz with | 1 -> bounded_integer_of_le_32_1 | 2 -> bounded_integer_of_le_32_2 | 3 -> bounded_integer_of_le_32_3 | 4 -> bounded_integer_of_le_32_4
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "LowParse.Spec.BoundedInt.integer_size", "LowParse.SLow.BoundedInt.bounded_integer_of_le_32_1", "LowParse.SLow.BoundedInt.bounded_integer_of_le_32_2", "LowParse.SLow.BoundedInt.bounded_integer_of_le_32_3", "LowParse.SLow.BoundedInt.bounded_integer_of_le_32_4", "FStar.Bytes.lbytes", "LowParse.Spec.Bounde...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val bounded_integer_of_le_32 (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == bounded_integer_of_le sz (B32.reveal b)}))
[]
LowParse.SLow.BoundedInt.bounded_integer_of_le_32
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
sz: LowParse.Spec.BoundedInt.integer_size -> b: FStar.Bytes.lbytes sz -> y: LowParse.Spec.BoundedInt.bounded_integer sz {y == LowParse.Spec.BoundedInt.bounded_integer_of_le sz (FStar.Bytes.reveal b)}
{ "end_col": 35, "end_line": 174, "start_col": 2, "start_line": 170 }
Prims.Tot
val decode32_bounded_integer (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == decode_bounded_integer sz (B32.reveal b)}) )
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let decode32_bounded_integer (sz: integer_size) : Tot ((b: B32.lbytes sz) -> Tot (y: bounded_integer sz { y == decode_bounded_integer sz (B32.reveal b) } ) ) = match sz with | 1 -> decode32_bounded_integer_1 | 2 -> decode32_bounded_integer_2 | 3 -> decode32_bounded_integer_3 | 4 -> decode32_bounded_inte...
val decode32_bounded_integer (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == decode_bounded_integer sz (B32.reveal b)}) ) let decode32_bounded_integer (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == decode_bounded_integer sz (B32.reveal b...
false
null
false
match sz with | 1 -> decode32_bounded_integer_1 | 2 -> decode32_bounded_integer_2 | 3 -> decode32_bounded_integer_3 | 4 -> decode32_bounded_integer_4
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "LowParse.Spec.BoundedInt.integer_size", "LowParse.SLow.BoundedInt.decode32_bounded_integer_1", "LowParse.SLow.BoundedInt.decode32_bounded_integer_2", "LowParse.SLow.BoundedInt.decode32_bounded_integer_3", "LowParse.SLow.BoundedInt.decode32_bounded_integer_4", "FStar.Bytes.lbytes", "LowParse.Spec.Bounde...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val decode32_bounded_integer (sz: integer_size) : Tot (b: B32.lbytes sz -> Tot (y: bounded_integer sz {y == decode_bounded_integer sz (B32.reveal b)}) )
[]
LowParse.SLow.BoundedInt.decode32_bounded_integer
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
sz: LowParse.Spec.BoundedInt.integer_size -> b: FStar.Bytes.lbytes sz -> y: LowParse.Spec.BoundedInt.bounded_integer sz {y == LowParse.Spec.BoundedInt.decode_bounded_integer sz (FStar.Bytes.reveal b)}
{ "end_col": 35, "end_line": 68, "start_col": 2, "start_line": 64 }
Prims.Tot
val parse32_bounded_int32_le_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_le_2 min max = parse32_bounded_int32_le' min max 2ul
val parse32_bounded_int32_le_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32))) let parse32_bounded_int32_le_2 min max =
false
null
false
parse32_bounded_int32_le' min max 2ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.parse32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bo...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_le_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_le_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 256 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 65536 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32_le (FStar.UInt32.v min32 ) ...
{ "end_col": 39, "end_line": 348, "start_col": 2, "start_line": 348 }
Prims.Tot
val parse32_bounded_int32_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_3 min max = parse32_bounded_int32' min max 3ul
val parse32_bounded_int32_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32))) let parse32_bounded_int32_3 min max =
false
null
false
parse32_bounded_int32' min max 3ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.parse32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bound...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_3
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 65536 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 16777216 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32 (FStar.UInt32.v min32 ) ...
{ "end_col": 36, "end_line": 279, "start_col": 2, "start_line": 279 }
Prims.Tot
val serialize32_bounded_int32_le_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_le_3 min max = serialize32_bounded_int32_le' min max 3ul
val serialize32_bounded_int32_le_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_le_3 min max =
false
null
false
serialize32_bounded_int32_le' min max 3ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.serialize32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_le_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_le_3
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 65536 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 16777216 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32_le (FStar.UInt32.v min...
{ "end_col": 43, "end_line": 392, "start_col": 2, "start_line": 392 }
Prims.Tot
val serialize32_bounded_int32_le_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_le_1 min max = serialize32_bounded_int32_le' min max 1ul
val serialize32_bounded_int32_le_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_le_1 min max =
false
null
false
serialize32_bounded_int32_le' min max 1ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "LowParse.SLow.BoundedInt.serialize32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_le_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_le_1
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 256 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32_le (FStar.UInt32.v min32) ...
{ "end_col": 43, "end_line": 384, "start_col": 2, "start_line": 384 }
Prims.Tot
val serialize32_bounded_int32_le_fixed_size (min32: U32.t) (max32: U32.t { U32.v min32 <= U32.v max32 }) : Tot (serializer32 (serialize_bounded_int32_le_fixed_size (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_le_fixed_size min32 max32 = serialize32_filter serialize32_u32_le (in_bounds (U32.v min32) (U32.v max32))
val serialize32_bounded_int32_le_fixed_size (min32: U32.t) (max32: U32.t { U32.v min32 <= U32.v max32 }) : Tot (serializer32 (serialize_bounded_int32_le_fixed_size (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_le_fixed_size min32 max32 =
false
null
false
serialize32_filter serialize32_u32_le (in_bounds (U32.v min32) (U32.v max32))
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "LowParse.SLow.Combinators.serialize32_filter", "LowParse.Spec.Int.parse_u32_kind", "LowParse.Spec.BoundedInt.parse_u32_le", "LowParse.Spec.BoundedInt.serialize_u32_le", "LowParse.SLow.BoundedInt.serialize32_u32_le", "Low...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_le_fixed_size (min32: U32.t) (max32: U32.t { U32.v min32 <= U32.v max32 }) : Tot (serializer32 (serialize_bounded_int32_le_fixed_size (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_le_fixed_size
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t{FStar.UInt32.v min32 <= FStar.UInt32.v max32} -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32_le_fixed_size (FStar.UInt32.v min32) (FStar.UInt32.v max32))
{ "end_col": 79, "end_line": 404, "start_col": 2, "start_line": 404 }
Prims.Tot
val serialize32_bounded_int32_le_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_le_2 min max = serialize32_bounded_int32_le' min max 2ul
val serialize32_bounded_int32_le_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_le_2 min max =
false
null
false
serialize32_bounded_int32_le' min max 2ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.serialize32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_le_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_le_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 256 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 65536 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32_le (FStar.UInt32.v min32) ...
{ "end_col": 43, "end_line": 388, "start_col": 2, "start_line": 388 }
Prims.Tot
val serialize32_bounded_int32_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_4 min max = serialize32_bounded_int32' min max 4ul
val serialize32_bounded_int32_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_4 min max =
false
null
false
serialize32_bounded_int32' min max 4ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.serialize32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Sp...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_4
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 16777216 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32 (FStar.UInt32.v m...
{ "end_col": 40, "end_line": 320, "start_col": 2, "start_line": 320 }
Prims.Tot
val parse32_bounded_int32_le_fixed_size (min32: U32.t) (max32: U32.t { U32.v min32 <= U32.v max32 }) : Tot (parser32 (parse_bounded_int32_le_fixed_size (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_le_fixed_size min32 max32 = parse32_filter parse32_u32_le (in_bounds (U32.v min32) (U32.v max32)) (fun x -> not (x `U32.lt` min32 || max32 `U32.lt` x))
val parse32_bounded_int32_le_fixed_size (min32: U32.t) (max32: U32.t { U32.v min32 <= U32.v max32 }) : Tot (parser32 (parse_bounded_int32_le_fixed_size (U32.v min32) (U32.v max32))) let parse32_bounded_int32_le_fixed_size min32 max32 =
false
null
false
parse32_filter parse32_u32_le (in_bounds (U32.v min32) (U32.v max32)) (fun x -> not (x `U32.lt` min32 || max32 `U32.lt` x))
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "LowParse.SLow.Combinators.parse32_filter", "LowParse.Spec.Int.parse_u32_kind", "LowParse.Spec.BoundedInt.parse_u32_le", "LowParse.SLow.BoundedInt.parse32_u32_le", "LowParse.Spec.BoundedInt.in_bounds", "Prims.op_Negation"...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_le_fixed_size (min32: U32.t) (max32: U32.t { U32.v min32 <= U32.v max32 }) : Tot (parser32 (parse_bounded_int32_le_fixed_size (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_le_fixed_size
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t{FStar.UInt32.v min32 <= FStar.UInt32.v max32} -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32_le_fixed_size (FStar.UInt32.v min32) (FStar.UInt32.v max32))
{ "end_col": 125, "end_line": 400, "start_col": 2, "start_line": 400 }
Prims.Tot
val serialize32_bounded_int32_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_2 min max = serialize32_bounded_int32' min max 2ul
val serialize32_bounded_int32_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_2 min max =
false
null
false
serialize32_bounded_int32' min max 2ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.serialize32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Sp...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_2 (min32: U32.t) (max32: U32.t { 256 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 65536 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 256 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 65536 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32 (FStar.UInt32.v min32) ...
{ "end_col": 40, "end_line": 312, "start_col": 2, "start_line": 312 }
Prims.Tot
val serialize32_bounded_int32_le_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_le_4 min max = serialize32_bounded_int32_le' min max 4ul
val serialize32_bounded_int32_le_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_le_4 min max =
false
null
false
serialize32_bounded_int32_le' min max 4ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.serialize32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_le_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_le_4
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 16777216 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32_le (FStar.UInt32.v ...
{ "end_col": 43, "end_line": 396, "start_col": 2, "start_line": 396 }
Prims.Tot
val parse32_bounded_int32' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.UInt32", "short_module": "U32" }, { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, ...
false
let parse32_bounded_int32' (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) (sz32: U32.t { log256' (U32.v max32) == U32.v sz32 }) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32))) = [@inline_let] let sz = U32.v sz32 in [@inline_let] ...
val parse32_bounded_int32' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32))) let parse32_bounded_int32' (min32: U32.t) ...
false
null
false
[@@ inline_let ]let sz = U32.v sz32 in [@@ inline_let ]let min = U32.v min32 in [@@ inline_let ]let max = U32.v max32 in parse32_synth ((parse_bounded_integer sz) `parse_filter` (in_bounds min max)) (fun x -> (x <: bounded_int32 min max)) (fun x -> x) (parse32_filter (parse32_bounded_integer sz) (in_bounds ...
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "Prims.eq2", "Prims.int", "Prims.l_or", "Prims.op_GreaterThanOrEqual", "FStar.UInt.size", "FStar.UInt32.n", "LowParse.Spec.BoundedInt.log256'", "LowParse.SLow.Combinators.parse3...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (parser32 (parse_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32'
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> sz32: FStar.UInt32.t{LowParse.Spec.BoundedInt.log256' (FStar.UInt32.v max32) == FStar.UInt32.v sz32} -> LowPars...
{ "end_col": 6, "end_line": 267, "start_col": 2, "start_line": 256 }
Prims.Tot
val serialize32_bounded_int32_le' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.UInt32", "short_module": "U32" }, { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, ...
false
let serialize32_bounded_int32_le' (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) (sz32: U32.t { log256' (U32.v max32) == U32.v sz32 }) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32))) = [@inline_let] let sz = U32.v sz32 in...
val serialize32_bounded_int32_le' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_...
false
null
false
[@@ inline_let ]let sz = U32.v sz32 in [@@ inline_let ]let min = U32.v min32 in [@@ inline_let ]let max = U32.v max32 in serialize32_synth ((parse_bounded_integer_le sz) `parse_filter` (in_bounds min max)) (fun x -> (x <: bounded_int32 min max)) _ (serialize32_filter (serialize32_bounded_integer_le sz) (in_bounds...
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "Prims.eq2", "Prims.int", "Prims.l_or", "Prims.op_GreaterThanOrEqual", "FStar.UInt.size", "FStar.UInt32.n", "LowParse.Spec.BoundedInt.log256'", "LowParse.SLow.Combinators.serial...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_le' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (serializer32 (serialize_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_le'
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> sz32: FStar.UInt32.t{LowParse.Spec.BoundedInt.log256' (FStar.UInt32.v max32) == FStar.UInt32.v sz32} -> LowPars...
{ "end_col": 6, "end_line": 377, "start_col": 2, "start_line": 364 }
Prims.Tot
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let n_to_be_2 = norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_be (EI.bounded_integer 2) 2)
let n_to_be_2 =
false
null
false
norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_be (EI.bounded_integer 2) 2)
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Pervasives.norm", "Prims.Cons", "FStar.Pervasives.norm_step", "FStar.Pervasives.delta_attr", "Prims.string", "Prims.Nil", "FStar.Pervasives.iota", "FStar.Pervasives.zeta", "FStar.Pervasives.primops", "LowParse.SLow.Endianness.n_to_be_t", "LowParse.Spec.BoundedInt.bounded_integer", "LowP...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val n_to_be_2 : LowParse.SLow.Endianness.n_to_be_t (LowParse.Spec.Endianness.Instances.bounded_integer 2) 2
[]
LowParse.SLow.BoundedInt.n_to_be_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
LowParse.SLow.Endianness.n_to_be_t (LowParse.Spec.Endianness.Instances.bounded_integer 2) 2
{ "end_col": 112, "end_line": 96, "start_col": 16, "start_line": 96 }
Prims.Tot
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let n_to_be_4 = norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_be (EI.bounded_integer 4) 4)
let n_to_be_4 =
false
null
false
norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_be (EI.bounded_integer 4) 4)
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Pervasives.norm", "Prims.Cons", "FStar.Pervasives.norm_step", "FStar.Pervasives.delta_attr", "Prims.string", "Prims.Nil", "FStar.Pervasives.iota", "FStar.Pervasives.zeta", "FStar.Pervasives.primops", "LowParse.SLow.Endianness.n_to_be_t", "LowParse.Spec.BoundedInt.bounded_integer", "LowP...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val n_to_be_4 : LowParse.SLow.Endianness.n_to_be_t (LowParse.Spec.Endianness.Instances.bounded_integer 4) 4
[]
LowParse.SLow.BoundedInt.n_to_be_4
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
LowParse.SLow.Endianness.n_to_be_t (LowParse.Spec.Endianness.Instances.bounded_integer 4) 4
{ "end_col": 112, "end_line": 116, "start_col": 16, "start_line": 116 }
Prims.Tot
val decode32_bounded_integer_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == decode_bounded_integer 1 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let decode32_bounded_integer_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 { y == decode_bounded_integer 1 (B32.reveal b) } ) = be_to_n_1 b
val decode32_bounded_integer_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == decode_bounded_integer 1 (B32.reveal b)}) let decode32_bounded_integer_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == decode_bounded_integer 1 (B32.reveal b)}) =
false
null
false
be_to_n_1 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.be_to_n_1", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.decode_bounded_integer", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val decode32_bounded_integer_1 (b: B32.lbytes 1) : Tot (y: bounded_integer 1 {y == decode_bounded_integer 1 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.decode32_bounded_integer_1
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 1 -> y: LowParse.Spec.BoundedInt.bounded_integer 1 {y == LowParse.Spec.BoundedInt.decode_bounded_integer 1 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 26, "start_col": 2, "start_line": 26 }
Prims.Tot
val decode32_bounded_integer_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == decode_bounded_integer 2 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let decode32_bounded_integer_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 { y == decode_bounded_integer 2 (B32.reveal b) } ) = be_to_n_2 b
val decode32_bounded_integer_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == decode_bounded_integer 2 (B32.reveal b)}) let decode32_bounded_integer_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == decode_bounded_integer 2 (B32.reveal b)}) =
false
null
false
be_to_n_2 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.be_to_n_2", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.decode_bounded_integer", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val decode32_bounded_integer_2 (b: B32.lbytes 2) : Tot (y: bounded_integer 2 {y == decode_bounded_integer 2 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.decode32_bounded_integer_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 2 -> y: LowParse.Spec.BoundedInt.bounded_integer 2 {y == LowParse.Spec.BoundedInt.decode_bounded_integer 2 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 36, "start_col": 2, "start_line": 36 }
Prims.Tot
val bounded_integer_of_le_32_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == bounded_integer_of_le 4 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let bounded_integer_of_le_32_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 { y == bounded_integer_of_le 4 (B32.reveal b) } ) = le_to_n_4 b
val bounded_integer_of_le_32_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == bounded_integer_of_le 4 (B32.reveal b)}) let bounded_integer_of_le_32_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == bounded_integer_of_le 4 (B32.reveal b)}) =
false
null
false
le_to_n_4 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.le_to_n_4", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.bounded_integer_of_le", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val bounded_integer_of_le_32_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == bounded_integer_of_le 4 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.bounded_integer_of_le_32_4
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 4 -> y: LowParse.Spec.BoundedInt.bounded_integer 4 {y == LowParse.Spec.BoundedInt.bounded_integer_of_le 4 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 162, "start_col": 2, "start_line": 162 }
Prims.Tot
val decode32_bounded_integer_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == decode_bounded_integer 4 (B32.reveal b)})
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let decode32_bounded_integer_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 { y == decode_bounded_integer 4 (B32.reveal b) } ) = be_to_n_4 b
val decode32_bounded_integer_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == decode_bounded_integer 4 (B32.reveal b)}) let decode32_bounded_integer_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == decode_bounded_integer 4 (B32.reveal b)}) =
false
null
false
be_to_n_4 b
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Bytes.lbytes", "LowParse.SLow.BoundedInt.be_to_n_4", "LowParse.Spec.BoundedInt.bounded_integer", "Prims.eq2", "LowParse.Spec.BoundedInt.decode_bounded_integer", "FStar.Bytes.reveal" ]
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val decode32_bounded_integer_4 (b: B32.lbytes 4) : Tot (y: bounded_integer 4 {y == decode_bounded_integer 4 (B32.reveal b)})
[]
LowParse.SLow.BoundedInt.decode32_bounded_integer_4
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
b: FStar.Bytes.lbytes 4 -> y: LowParse.Spec.BoundedInt.bounded_integer 4 {y == LowParse.Spec.BoundedInt.decode_bounded_integer 4 (FStar.Bytes.reveal b)}
{ "end_col": 13, "end_line": 56, "start_col": 2, "start_line": 56 }
Prims.Tot
val serialize32_bounded_integer_le_1 : serializer32 (serialize_bounded_integer_le 1)
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_integer_le_1 = fun (x: bounded_integer 1) -> n_to_le_1 x
val serialize32_bounded_integer_le_1 : serializer32 (serialize_bounded_integer_le 1) let serialize32_bounded_integer_le_1 =
false
null
false
fun (x: bounded_integer 1) -> n_to_le_1 x
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "LowParse.Spec.BoundedInt.bounded_integer", "LowParse.SLow.BoundedInt.n_to_le_1", "LowParse.SLow.Base.bytes32", "LowParse.SLow.Base.serializer32_correct", "LowParse.Spec.BoundedInt.parse_bounded_integer_kind", "LowParse.Spec.BoundedInt.parse_bounded_integer_le", "LowParse.Spec.BoundedInt.serialize_bound...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_integer_le_1 : serializer32 (serialize_bounded_integer_le 1)
[]
LowParse.SLow.BoundedInt.serialize32_bounded_integer_le_1
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_integer_le 1)
{ "end_col": 13, "end_line": 209, "start_col": 39, "start_line": 208 }
Prims.Tot
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let n_to_le_2 = norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_le (EI.bounded_integer 2) 2)
let n_to_le_2 =
false
null
false
norm [delta_attr [`%E.must_reduce]; iota; zeta; primops] (E.mk_n_to_le (EI.bounded_integer 2) 2)
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.Pervasives.norm", "Prims.Cons", "FStar.Pervasives.norm_step", "FStar.Pervasives.delta_attr", "Prims.string", "Prims.Nil", "FStar.Pervasives.iota", "FStar.Pervasives.zeta", "FStar.Pervasives.primops", "LowParse.SLow.Endianness.n_to_le_t", "LowParse.Spec.BoundedInt.bounded_integer", "LowP...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val n_to_le_2 : LowParse.SLow.Endianness.n_to_le_t (LowParse.Spec.Endianness.Instances.bounded_integer 2) 2
[]
LowParse.SLow.BoundedInt.n_to_le_2
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
LowParse.SLow.Endianness.n_to_le_t (LowParse.Spec.Endianness.Instances.bounded_integer 2) 2
{ "end_col": 112, "end_line": 213, "start_col": 16, "start_line": 213 }
Prims.Tot
val serialize32_bounded_int32_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_1 min max = serialize32_bounded_int32' min max 1ul
val serialize32_bounded_int32_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_1 min max =
false
null
false
serialize32_bounded_int32' min max 1ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "LowParse.SLow.BoundedInt.serialize32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Sp...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_1 (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 256 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_1
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 256 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32 (FStar.UInt32.v min32) ...
{ "end_col": 40, "end_line": 308, "start_col": 2, "start_line": 308 }
Prims.Tot
val serialize32_bounded_int32_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let serialize32_bounded_int32_3 min max = serialize32_bounded_int32' min max 3ul
val serialize32_bounded_int32_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32))) let serialize32_bounded_int32_3 min max =
false
null
false
serialize32_bounded_int32' min max 3ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.serialize32_bounded_int32'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.serializer32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Sp...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32_3
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 65536 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 16777216 } -> LowParse.SLow.Base.serializer32 (LowParse.Spec.BoundedInt.serialize_bounded_int32 (FStar.UInt32.v min32)...
{ "end_col": 40, "end_line": 316, "start_col": 2, "start_line": 316 }
Prims.Tot
val parse32_bounded_int32_le_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_le_3 min max = parse32_bounded_int32_le' min max 3ul
val parse32_bounded_int32_le_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32))) let parse32_bounded_int32_le_3 min max =
false
null
false
parse32_bounded_int32_le' min max 3ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.parse32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bo...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_le_3 (min32: U32.t) (max32: U32.t { 65536 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 16777216 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_le_3
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 65536 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 16777216 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32_le (FStar.UInt32.v min32 ) ...
{ "end_col": 39, "end_line": 352, "start_col": 2, "start_line": 352 }
Prims.Tot
val parse32_bounded_int32_le_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, "full_module": "LowParse.SLow.Endianness", "short_module": "E" }, { "abbre...
false
let parse32_bounded_int32_le_4 min max = parse32_bounded_int32_le' min max 4ul
val parse32_bounded_int32_le_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32))) let parse32_bounded_int32_le_4 min max =
false
null
false
parse32_bounded_int32_le' min max 4ul
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.UInt32.v", "Prims.op_LessThan", "LowParse.SLow.BoundedInt.parse32_bounded_int32_le'", "FStar.UInt32.__uint_to_t", "LowParse.SLow.Base.parser32", "LowParse.Spec.BoundedInt.parse_bounded_int32_kind", "LowParse.Spec.Bo...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_le_4 (min32: U32.t) (max32: U32.t { 16777216 <= U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_le_4
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 16777216 <= FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> LowParse.SLow.Base.parser32 (LowParse.Spec.BoundedInt.parse_bounded_int32_le (FStar.UInt32.v min32 ) ...
{ "end_col": 39, "end_line": 356, "start_col": 2, "start_line": 356 }
Prims.Tot
val parse32_bounded_int32_le' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.UInt32", "short_module": "U32" }, { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, ...
false
let parse32_bounded_int32_le' (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) (sz32: U32.t { log256' (U32.v max32) == U32.v sz32 }) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32))) = [@inline_let] let sz = U32.v sz32 in [@inline_...
val parse32_bounded_int32_le' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32))) let parse32_bounded_int32_le' (min32...
false
null
false
[@@ inline_let ]let sz = U32.v sz32 in [@@ inline_let ]let min = U32.v min32 in [@@ inline_let ]let max = U32.v max32 in parse32_synth ((parse_bounded_integer_le sz) `parse_filter` (in_bounds min max)) (fun x -> (x <: bounded_int32 min max)) (fun x -> x) (parse32_filter (parse32_bounded_integer_le sz) (in_b...
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "Prims.eq2", "Prims.int", "Prims.l_or", "Prims.op_GreaterThanOrEqual", "FStar.UInt.size", "FStar.UInt32.n", "LowParse.Spec.BoundedInt.log256'", "LowParse.SLow.Combinators.parse3...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val parse32_bounded_int32_le' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (parser32 (parse_bounded_int32_le (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.parse32_bounded_int32_le'
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> sz32: FStar.UInt32.t{LowParse.Spec.BoundedInt.log256' (FStar.UInt32.v max32) == FStar.UInt32.v sz32} -> LowPars...
{ "end_col": 6, "end_line": 340, "start_col": 2, "start_line": 329 }
Prims.Tot
val serialize32_bounded_int32' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[ { "abbrev": true, "full_module": "FStar.UInt32", "short_module": "U32" }, { "abbrev": true, "full_module": "FStar.Int.Cast", "short_module": "Cast" }, { "abbrev": true, "full_module": "LowParse.Spec.Endianness.Instances", "short_module": "EI" }, { "abbrev": true, ...
false
let serialize32_bounded_int32' (min32: U32.t) (max32: U32.t { 0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296 }) (sz32: U32.t { log256' (U32.v max32) == U32.v sz32 }) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32))) = [@inline_let] let sz = U32.v sz32 in [@i...
val serialize32_bounded_int32' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32))) let serialize32_bounded_int32' ...
false
null
false
[@@ inline_let ]let sz = U32.v sz32 in [@@ inline_let ]let min = U32.v min32 in [@@ inline_let ]let max = U32.v max32 in serialize32_synth ((parse_bounded_integer sz) `parse_filter` (in_bounds min max)) (fun x -> (x <: bounded_int32 min max)) _ (serialize32_filter (serialize32_bounded_integer sz) (in_bounds min m...
{ "checked_file": "LowParse.SLow.BoundedInt.fst.checked", "dependencies": [ "prims.fst.checked", "LowParse.Spec.Endianness.Instances.fst.checked", "LowParse.Spec.BoundedInt.fst.checked", "LowParse.SLow.Endianness.fst.checked", "LowParse.SLow.Combinators.fst.checked", "FStar.UInt8.fsti.checke...
[ "total" ]
[ "FStar.UInt32.t", "Prims.l_and", "Prims.b2t", "Prims.op_LessThan", "FStar.UInt32.v", "Prims.op_LessThanOrEqual", "Prims.eq2", "Prims.int", "Prims.l_or", "Prims.op_GreaterThanOrEqual", "FStar.UInt.size", "FStar.UInt32.n", "LowParse.Spec.BoundedInt.log256'", "LowParse.SLow.Combinators.serial...
[]
module LowParse.SLow.BoundedInt open LowParse.SLow.Combinators #set-options "--split_queries no" #set-options "--z3rlimit 20" module Seq = FStar.Seq module U8 = FStar.UInt8 module U16 = FStar.UInt16 module U32 = FStar.UInt32 module B32 = FStar.Bytes module E = LowParse.SLow.Endianness module EI = LowParse.Spec.Endia...
false
false
LowParse.SLow.BoundedInt.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val serialize32_bounded_int32' (min32: U32.t) (max32: U32.t{0 < U32.v max32 /\ U32.v min32 <= U32.v max32 /\ U32.v max32 < 4294967296}) (sz32: U32.t{log256' (U32.v max32) == U32.v sz32}) : Tot (serializer32 (serialize_bounded_int32 (U32.v min32) (U32.v max32)))
[]
LowParse.SLow.BoundedInt.serialize32_bounded_int32'
{ "file_name": "src/lowparse/LowParse.SLow.BoundedInt.fst", "git_rev": "446a08ce38df905547cf20f28c43776b22b8087a", "git_url": "https://github.com/project-everest/everparse.git", "project_name": "everparse" }
min32: FStar.UInt32.t -> max32: FStar.UInt32.t { 0 < FStar.UInt32.v max32 /\ FStar.UInt32.v min32 <= FStar.UInt32.v max32 /\ FStar.UInt32.v max32 < 4294967296 } -> sz32: FStar.UInt32.t{LowParse.Spec.BoundedInt.log256' (FStar.UInt32.v max32) == FStar.UInt32.v sz32} -> LowPars...
{ "end_col": 6, "end_line": 304, "start_col": 2, "start_line": 291 }
Prims.Tot
[ { "abbrev": false, "full_module": "Vale.Def.Prop_s", "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_m...
false
let valid_stack_slot64 (ptr:int) (h:vale_stack) (t:taint) (stackTaint:memtaint) = valid_src_stack64 ptr h /\ valid_taint_stack64 ptr t stackTaint
let valid_stack_slot64 (ptr: int) (h: vale_stack) (t: taint) (stackTaint: memtaint) =
false
null
false
valid_src_stack64 ptr h /\ valid_taint_stack64 ptr t stackTaint
{ "checked_file": "Vale.X64.Stack_i.fsti.checked", "dependencies": [ "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked" ], "interface_...
[ "total" ]
[ "Prims.int", "Vale.X64.Stack_i.vale_stack", "Vale.Arch.HeapTypes_s.taint", "Vale.X64.Memory.memtaint", "Prims.l_and", "Prims.b2t", "Vale.X64.Stack_i.valid_src_stack64", "Vale.X64.Stack_i.valid_taint_stack64", "Prims.logical" ]
[]
module Vale.X64.Stack_i open FStar.Mul open Vale.X64.Machine_s open Vale.X64.Memory open Vale.Def.Prop_s val vale_stack : Type u#0 val valid_src_stack64 (ptr:int) (h:vale_stack) : GTot bool val load_stack64 (ptr:int) (h:vale_stack) : GTot nat64 val store_stack64 (ptr:int) (v:nat64) (h:vale_stack) : GTot vale_stack v...
false
true
Vale.X64.Stack_i.fsti
{ "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_el...
null
val valid_stack_slot64 : ptr: Prims.int -> h: Vale.X64.Stack_i.vale_stack -> t: Vale.Arch.HeapTypes_s.taint -> stackTaint: Vale.X64.Memory.memtaint -> Prims.logical
[]
Vale.X64.Stack_i.valid_stack_slot64
{ "file_name": "vale/code/arch/x64/Vale.X64.Stack_i.fsti", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
ptr: Prims.int -> h: Vale.X64.Stack_i.vale_stack -> t: Vale.Arch.HeapTypes_s.taint -> stackTaint: Vale.X64.Memory.memtaint -> Prims.logical
{ "end_col": 65, "end_line": 113, "start_col": 2, "start_line": 113 }
Prims.Tot
val valid_src_stack64s (base num_slots: nat) (h: vale_stack) : Vale.Def.Prop_s.prop0
[ { "abbrev": false, "full_module": "Vale.Def.Prop_s", "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_m...
false
let valid_src_stack64s (base num_slots:nat) (h:vale_stack) : Vale.Def.Prop_s.prop0 = forall addr . {:pattern (valid_src_stack64 addr h)} (base <= addr) && (addr < base + num_slots * 8) && (addr - base) % 8 = 0 ==> valid_src_stack64 addr h
val valid_src_stack64s (base num_slots: nat) (h: vale_stack) : Vale.Def.Prop_s.prop0 let valid_src_stack64s (base num_slots: nat) (h: vale_stack) : Vale.Def.Prop_s.prop0 =
false
null
false
forall addr. {:pattern (valid_src_stack64 addr h)} (base <= addr) && (addr < base + num_slots * 8) && (addr - base) % 8 = 0 ==> valid_src_stack64 addr h
{ "checked_file": "Vale.X64.Stack_i.fsti.checked", "dependencies": [ "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked" ], "interface_...
[ "total" ]
[ "Prims.nat", "Vale.X64.Stack_i.vale_stack", "Prims.l_Forall", "Prims.int", "Prims.l_imp", "Prims.b2t", "Prims.op_AmpAmp", "Prims.op_LessThanOrEqual", "Prims.op_LessThan", "Prims.op_Addition", "FStar.Mul.op_Star", "Prims.op_Equality", "Prims.op_Modulus", "Prims.op_Subtraction", "Vale.X64....
[]
module Vale.X64.Stack_i open FStar.Mul open Vale.X64.Machine_s open Vale.X64.Memory open Vale.Def.Prop_s val vale_stack : Type u#0 val valid_src_stack64 (ptr:int) (h:vale_stack) : GTot bool val load_stack64 (ptr:int) (h:vale_stack) : GTot nat64 val store_stack64 (ptr:int) (v:nat64) (h:vale_stack) : GTot vale_stack v...
false
true
Vale.X64.Stack_i.fsti
{ "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_el...
null
val valid_src_stack64s (base num_slots: nat) (h: vale_stack) : Vale.Def.Prop_s.prop0
[]
Vale.X64.Stack_i.valid_src_stack64s
{ "file_name": "vale/code/arch/x64/Vale.X64.Stack_i.fsti", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
base: Prims.nat -> num_slots: Prims.nat -> h: Vale.X64.Stack_i.vale_stack -> Vale.Def.Prop_s.prop0
{ "end_col": 30, "end_line": 30, "start_col": 2, "start_line": 28 }
Prims.Tot
val modifies_stack (lo_rsp hi_rsp: nat) (h h': vale_stack) : Vale.Def.Prop_s.prop0
[ { "abbrev": false, "full_module": "Vale.Def.Prop_s", "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_m...
false
let modifies_stack (lo_rsp hi_rsp:nat) (h h':vale_stack) : Vale.Def.Prop_s.prop0 = forall addr . {:pattern (load_stack64 addr h') \/ (valid_src_stack64 addr h') } valid_src_stack64 addr h /\ (addr + 8 <= lo_rsp || addr >= hi_rsp) ==> valid_src_stack64 addr h' /\ load_stack64 addr h == load_stack64 add...
val modifies_stack (lo_rsp hi_rsp: nat) (h h': vale_stack) : Vale.Def.Prop_s.prop0 let modifies_stack (lo_rsp hi_rsp: nat) (h h': vale_stack) : Vale.Def.Prop_s.prop0 =
false
null
false
forall addr. {:pattern (load_stack64 addr h')\/(valid_src_stack64 addr h')} valid_src_stack64 addr h /\ (addr + 8 <= lo_rsp || addr >= hi_rsp) ==> valid_src_stack64 addr h' /\ load_stack64 addr h == load_stack64 addr h'
{ "checked_file": "Vale.X64.Stack_i.fsti.checked", "dependencies": [ "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked" ], "interface_...
[ "total" ]
[ "Prims.nat", "Vale.X64.Stack_i.vale_stack", "Prims.l_Forall", "Prims.int", "Prims.l_imp", "Prims.l_and", "Prims.b2t", "Vale.X64.Stack_i.valid_src_stack64", "Prims.op_BarBar", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Prims.op_GreaterThanOrEqual", "Prims.eq2", "Vale.X64.Memory.nat64...
[]
module Vale.X64.Stack_i open FStar.Mul open Vale.X64.Machine_s open Vale.X64.Memory open Vale.Def.Prop_s val vale_stack : Type u#0 val valid_src_stack64 (ptr:int) (h:vale_stack) : GTot bool val load_stack64 (ptr:int) (h:vale_stack) : GTot nat64 val store_stack64 (ptr:int) (v:nat64) (h:vale_stack) : GTot vale_stack v...
false
true
Vale.X64.Stack_i.fsti
{ "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_el...
null
val modifies_stack (lo_rsp hi_rsp: nat) (h h': vale_stack) : Vale.Def.Prop_s.prop0
[]
Vale.X64.Stack_i.modifies_stack
{ "file_name": "vale/code/arch/x64/Vale.X64.Stack_i.fsti", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
lo_rsp: Prims.nat -> hi_rsp: Prims.nat -> h: Vale.X64.Stack_i.vale_stack -> h': Vale.X64.Stack_i.vale_stack -> Vale.Def.Prop_s.prop0
{ "end_col": 49, "end_line": 25, "start_col": 2, "start_line": 22 }
Prims.Tot
val modifies_stacktaint (lo_rsp hi_rsp: nat) (h h': memtaint) : Vale.Def.Prop_s.prop0
[ { "abbrev": false, "full_module": "Vale.Def.Prop_s", "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_m...
false
let modifies_stacktaint (lo_rsp hi_rsp:nat) (h h':memtaint) : Vale.Def.Prop_s.prop0 = forall addr t. {:pattern (valid_taint_stack64 addr t h') } (addr + 8 <= lo_rsp || addr >= hi_rsp) ==> valid_taint_stack64 addr t h == valid_taint_stack64 addr t h'
val modifies_stacktaint (lo_rsp hi_rsp: nat) (h h': memtaint) : Vale.Def.Prop_s.prop0 let modifies_stacktaint (lo_rsp hi_rsp: nat) (h h': memtaint) : Vale.Def.Prop_s.prop0 =
false
null
false
forall addr t. {:pattern (valid_taint_stack64 addr t h')} (addr + 8 <= lo_rsp || addr >= hi_rsp) ==> valid_taint_stack64 addr t h == valid_taint_stack64 addr t h'
{ "checked_file": "Vale.X64.Stack_i.fsti.checked", "dependencies": [ "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked" ], "interface_...
[ "total" ]
[ "Prims.nat", "Vale.X64.Memory.memtaint", "Prims.l_Forall", "Prims.int", "Vale.Arch.HeapTypes_s.taint", "Prims.l_imp", "Prims.b2t", "Prims.op_BarBar", "Prims.op_LessThanOrEqual", "Prims.op_Addition", "Prims.op_GreaterThanOrEqual", "Prims.eq2", "Vale.Def.Prop_s.prop0", "Vale.X64.Stack_i.vali...
[]
module Vale.X64.Stack_i open FStar.Mul open Vale.X64.Machine_s open Vale.X64.Memory open Vale.Def.Prop_s val vale_stack : Type u#0 val valid_src_stack64 (ptr:int) (h:vale_stack) : GTot bool val load_stack64 (ptr:int) (h:vale_stack) : GTot nat64 val store_stack64 (ptr:int) (v:nat64) (h:vale_stack) : GTot vale_stack v...
false
true
Vale.X64.Stack_i.fsti
{ "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_el...
null
val modifies_stacktaint (lo_rsp hi_rsp: nat) (h h': memtaint) : Vale.Def.Prop_s.prop0
[]
Vale.X64.Stack_i.modifies_stacktaint
{ "file_name": "vale/code/arch/x64/Vale.X64.Stack_i.fsti", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
lo_rsp: Prims.nat -> hi_rsp: Prims.nat -> h: Vale.X64.Memory.memtaint -> h': Vale.X64.Memory.memtaint -> Vale.Def.Prop_s.prop0
{ "end_col": 67, "end_line": 124, "start_col": 2, "start_line": 122 }
Prims.Tot
val valid_stack_slot64s (base num_slots: nat) (h: vale_stack) (t: taint) (stackTaint: memtaint) : Vale.Def.Prop_s.prop0
[ { "abbrev": false, "full_module": "Vale.Def.Prop_s", "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_m...
false
let valid_stack_slot64s (base num_slots:nat) (h:vale_stack) (t:taint) (stackTaint:memtaint) : Vale.Def.Prop_s.prop0 = forall addr . {:pattern (valid_src_stack64 addr h) \/ (valid_taint_stack64 addr t stackTaint) \/ (valid_stack_slot64 addr h t stackTaint)} (base <= addr) && (addr < base + num_slots * 8) && (a...
val valid_stack_slot64s (base num_slots: nat) (h: vale_stack) (t: taint) (stackTaint: memtaint) : Vale.Def.Prop_s.prop0 let valid_stack_slot64s (base num_slots: nat) (h: vale_stack) (t: taint) (stackTaint: memtaint) : Vale.Def.Prop_s.prop0 =
false
null
false
forall addr. {:pattern (valid_src_stack64 addr h)\/(valid_taint_stack64 addr t stackTaint)\/(valid_stack_slot64 addr h t stackTaint)} (base <= addr) && (addr < base + num_slots * 8) && (addr - base) % 8 = 0 ==> valid_src_stack64 addr h /\ valid_taint_stack64 addr t stackTaint
{ "checked_file": "Vale.X64.Stack_i.fsti.checked", "dependencies": [ "Vale.X64.Memory.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Map.fsti.checked" ], "interface_...
[ "total" ]
[ "Prims.nat", "Vale.X64.Stack_i.vale_stack", "Vale.Arch.HeapTypes_s.taint", "Vale.X64.Memory.memtaint", "Prims.l_Forall", "Prims.int", "Prims.l_imp", "Prims.b2t", "Prims.op_AmpAmp", "Prims.op_LessThanOrEqual", "Prims.op_LessThan", "Prims.op_Addition", "FStar.Mul.op_Star", "Prims.op_Equality...
[]
module Vale.X64.Stack_i open FStar.Mul open Vale.X64.Machine_s open Vale.X64.Memory open Vale.Def.Prop_s val vale_stack : Type u#0 val valid_src_stack64 (ptr:int) (h:vale_stack) : GTot bool val load_stack64 (ptr:int) (h:vale_stack) : GTot nat64 val store_stack64 (ptr:int) (v:nat64) (h:vale_stack) : GTot vale_stack v...
false
true
Vale.X64.Stack_i.fsti
{ "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_el...
null
val valid_stack_slot64s (base num_slots: nat) (h: vale_stack) (t: taint) (stackTaint: memtaint) : Vale.Def.Prop_s.prop0
[]
Vale.X64.Stack_i.valid_stack_slot64s
{ "file_name": "vale/code/arch/x64/Vale.X64.Stack_i.fsti", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
base: Prims.nat -> num_slots: Prims.nat -> h: Vale.X64.Stack_i.vale_stack -> t: Vale.Arch.HeapTypes_s.taint -> stackTaint: Vale.X64.Memory.memtaint -> Vale.Def.Prop_s.prop0
{ "end_col": 71, "end_line": 119, "start_col": 2, "start_line": 116 }
Prims.Tot
val carry26_wide_zero: #w:lanes -> l:uint64xN w -> uint64xN w & uint64xN w
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_wide_zero #w l = (vec_and l (mask26 w), vec_shift_right l 26ul)
val carry26_wide_zero: #w:lanes -> l:uint64xN w -> uint64xN w & uint64xN w let carry26_wide_zero #w l =
false
null
false
(vec_and l (mask26 w), vec_shift_right l 26ul)
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "total" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "FStar.Pervasives.Native.Mktuple2", "Lib.IntVector.vec_and", "Lib.IntTypes.U64", "Hacl.Spec.Poly1305.Field32xN.mask26", "Lib.IntVector.vec_shift_right", "FStar.UInt32.__uint_to_t", "FStar.Pervasives.Native.tuple2" ]
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_wide_zero: #w:lanes -> l:uint64xN w -> uint64xN w & uint64xN w
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_wide_zero
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
l: Hacl.Spec.Poly1305.Field32xN.uint64xN w -> Hacl.Spec.Poly1305.Field32xN.uint64xN w * Hacl.Spec.Poly1305.Field32xN.uint64xN w
{ "end_col": 75, "end_line": 23, "start_col": 29, "start_line": 23 }
FStar.Pervasives.Lemma
val carry_wide_felem5_eval_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures feval5 (carry_wide_felem5 #w inp) == feval5 inp)
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_wide_felem5_eval_lemma #w inp = let o = carry_wide_felem5 #w inp in FStar.Classical.forall_intro (carry_wide_felem5_eval_lemma_i #w inp); eq_intro (feval5 o) (feval5 inp)
val carry_wide_felem5_eval_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures feval5 (carry_wide_felem5 #w inp) == feval5 inp) let carry_wide_felem5_eval_lemma #w inp =
false
null
true
let o = carry_wide_felem5 #w inp in FStar.Classical.forall_intro (carry_wide_felem5_eval_lemma_i #w inp); eq_intro (feval5 o) (feval5 inp)
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Lib.Sequence.eq_intro", "Hacl.Spec.Poly1305.Vec.pfelem", "Hacl.Spec.Poly1305.Field32xN.feval5", "Prims.unit", "FStar.Classical.forall_intro", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Prims.eq2", "Prims.l_...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_wide_felem5_eval_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures feval5 (carry_wide_felem5 #w inp) == feval5 inp)
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_wide_felem5_eval_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w -> FStar.Pervasives.Lemma (requires Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures Hacl.Spec.Poly1305.Field32xN.feval5 (Hacl.Spec.Poly1305.Field32xN.carry_wide_felem5 inp) == Hacl.Spec.Poly1305.Field32xN.fe...
{ "end_col": 34, "end_line": 469, "start_col": 41, "start_line": 466 }
FStar.Pervasives.Lemma
val lemma_prime: unit -> Lemma (pow2 130 % prime = 5)
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let lemma_prime () = assert_norm (pow2 130 % prime = 5 % prime); assert_norm (5 < prime); FStar.Math.Lemmas.modulo_lemma 5 prime
val lemma_prime: unit -> Lemma (pow2 130 % prime = 5) let lemma_prime () =
false
null
true
assert_norm (pow2 130 % prime = 5 % prime); assert_norm (5 < prime); FStar.Math.Lemmas.modulo_lemma 5 prime
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Prims.unit", "FStar.Math.Lemmas.modulo_lemma", "Hacl.Spec.Poly1305.Vec.prime", "FStar.Pervasives.assert_norm", "Prims.b2t", "Prims.op_LessThan", "Prims.op_Equality", "Prims.int", "Prims.op_Modulus", "Prims.pow2" ]
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val lemma_prime: unit -> Lemma (pow2 130 % prime = 5)
[]
Hacl.Poly1305.Field32xN.Lemmas1.lemma_prime
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
_: Prims.unit -> FStar.Pervasives.Lemma (ensures Prims.pow2 130 % Hacl.Spec.Poly1305.Vec.prime = 5)
{ "end_col": 40, "end_line": 19, "start_col": 2, "start_line": 17 }
FStar.Pervasives.Lemma
val carry_full_felem5_eval_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_fits5 inp (8, 8, 8, 8, 8)) (ensures feval5 (carry_full_felem5 #w inp) == feval5 inp)
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_full_felem5_eval_lemma #w inp = let o = carry_full_felem5 #w inp in FStar.Classical.forall_intro (carry_full_felem5_eval_lemma_i #w inp); eq_intro (feval5 o) (feval5 inp)
val carry_full_felem5_eval_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_fits5 inp (8, 8, 8, 8, 8)) (ensures feval5 (carry_full_felem5 #w inp) == feval5 inp) let carry_full_felem5_eval_lemma #w inp =
false
null
true
let o = carry_full_felem5 #w inp in FStar.Classical.forall_intro (carry_full_felem5_eval_lemma_i #w inp); eq_intro (feval5 o) (feval5 inp)
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Lib.Sequence.eq_intro", "Hacl.Spec.Poly1305.Vec.pfelem", "Hacl.Spec.Poly1305.Field32xN.feval5", "Prims.unit", "FStar.Classical.forall_intro", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Prims.eq2", "Prims.l_...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_full_felem5_eval_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_fits5 inp (8, 8, 8, 8, 8)) (ensures feval5 (carry_full_felem5 #w inp) == feval5 inp)
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_eval_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w -> FStar.Pervasives.Lemma (requires Hacl.Spec.Poly1305.Field32xN.felem_fits5 inp (8, 8, 8, 8, 8)) (ensures Hacl.Spec.Poly1305.Field32xN.feval5 (Hacl.Spec.Poly1305.Field32xN.carry_full_felem5 inp) == Hacl.Spec.Poly1305.Field32xN.feval5 inp)
{ "end_col": 34, "end_line": 868, "start_col": 41, "start_line": 865 }
Prims.Tot
val acc_inv_t (#w: lanes) (acc: felem5 w) : Type0
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let acc_inv_t (#w:lanes) (acc:felem5 w) : Type0 = let (o0, o1, o2, o3, o4) = acc in forall (i:nat). i < w ==> (if uint_v (vec_v o0).[i] >= pow2 26 then tup64_fits5 (as_tup64_i acc i) (2, 1, 1, 1, 1) /\ uint_v (vec_v o0).[i] % pow2 26 < 47 else tup64_fits5 (as_tup64_i acc i) (1, 1, 1, 1, 1))
val acc_inv_t (#w: lanes) (acc: felem5 w) : Type0 let acc_inv_t (#w: lanes) (acc: felem5 w) : Type0 =
false
null
false
let o0, o1, o2, o3, o4 = acc in forall (i: nat). i < w ==> (if uint_v (vec_v o0).[ i ] >= pow2 26 then tup64_fits5 (as_tup64_i acc i) (2, 1, 1, 1, 1) /\ uint_v (vec_v o0).[ i ] % pow2 26 < 47 else tup64_fits5 (as_tup64_i acc i) (1, 1, 1, 1, 1))
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "total" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Prims.l_Forall", "Prims.nat", "Prims.l_imp", "Prims.b2t", "Prims.op_LessThan", "Prims.op_GreaterThanOrEqual", "Lib.IntTypes.uint_v", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", ...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val acc_inv_t (#w: lanes) (acc: felem5 w) : Type0
[]
Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
acc: Hacl.Spec.Poly1305.Field32xN.felem5 w -> Type0
{ "end_col": 56, "end_line": 639, "start_col": 49, "start_line": 633 }
Prims.Tot
val carry_wide_felem5_compact: #w:lanes -> inp:felem_wide5 w -> felem5 w
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_wide_felem5_compact #w (x0, x1, x2, x3, x4) = // m_i <= 4096, x_i <= m_i * max26 * max26 // felem_wide_fits5 (x0, x1, x2, x3, x4) (m0, m1, m2, m3, m4) let t0, c0 = carry26_wide_zero x0 in // t0 <= max26 /\ c0 <= (m0 + 1) * max26 let t1, c1 = carry26_wide x1 c0 in // t1 <= max26 /\ c1 <= (m1 + 1) *...
val carry_wide_felem5_compact: #w:lanes -> inp:felem_wide5 w -> felem5 w let carry_wide_felem5_compact #w (x0, x1, x2, x3, x4) =
false
null
false
let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in let t3', c6 = carry26 t3 c2 in let t4, c4 = carry26_wide x4 c3 in let t4' = vec_add_mod t4 c6 in let t0', c5 = carry26 t0 (vec_smul_mod c4 (u64 5)) in let t1' = vec_add_mod t1 ...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "total" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "FStar.Pervasives.Native.Mktuple5", "Lib.IntVector.vec_t", "Lib.IntTypes.U64", "Lib.IntVector.vec_add_mod", "Hacl.Spec.Poly1305.Field32xN.felem5", "FStar.Pervasives.Native.tuple...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_wide_felem5_compact: #w:lanes -> inp:felem_wide5 w -> felem5 w
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_wide_felem5_compact
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w -> Hacl.Spec.Poly1305.Field32xN.felem5 w
{ "end_col": 26, "end_line": 83, "start_col": 55, "start_line": 60 }
FStar.Pervasives.Lemma
val lemma_subtract_p5: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in ((v f4 = 0x3ffffff && v f3 = 0x3ffffff && v f2 = 0x3ffffff && v f1 = 0x3ffffff && v f0 >= 0x3fffffb) /\ (v f0' = v f0 - 0x3...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let lemma_subtract_p5 f f' = let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in assert_norm (max26 = pow2 26 - 1); if ((v f4 <> 0x3ffffff || v f3 <> 0x3ffffff || v f2 <> 0x3ffffff || v f1 <> 0x3ffffff || v f0 < 0x3fffffb) && (v f0' = v f0 && v f1' = v f1 && v f2' = v f2 && v f3' = v f3 &...
val lemma_subtract_p5: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in ((v f4 = 0x3ffffff && v f3 = 0x3ffffff && v f2 = 0x3ffffff && v f1 = 0x3ffffff && v f0 >= 0x3fffffb) /\ (v f0' = v f0 - 0x3...
false
null
true
let f0, f1, f2, f3, f4 = f in let f0', f1', f2', f3', f4' = f' in assert_norm (max26 = pow2 26 - 1); if ((v f4 <> 0x3ffffff || v f3 <> 0x3ffffff || v f2 <> 0x3ffffff || v f1 <> 0x3ffffff || v f0 < 0x3fffffb) && (v f0' = v f0 && v f1' = v f1 && v f2' = v f2 && v f3' = v f3 && v f4' = v f4)) then lemma_subtra...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.tup64_5", "Hacl.Spec.Poly1305.Field32xN.tup64_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Lib.IntTypes.uint64", "Prims.op_AmpAmp", "Prims.op_BarBar", "Prims.op_disEquality", "Prims.int", "Lib.IntTypes.v", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "Pr...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val lemma_subtract_p5: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in ((v f4 = 0x3ffffff && v f3 = 0x3ffffff && v f2 = 0x3ffffff && v f1 = 0x3ffffff && v f0 >= 0x3fffffb) /\ (v f0' = v f0 - 0x3...
[]
Hacl.Poly1305.Field32xN.Lemmas1.lemma_subtract_p5
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.tup64_5 {Hacl.Spec.Poly1305.Field32xN.tup64_fits5 f (1, 1, 1, 1, 1)} -> f': Hacl.Spec.Poly1305.Field32xN.tup64_5 -> FStar.Pervasives.Lemma (requires (let _ = f in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ f0 f1 f2 f3 f4 = _ in ...
{ "end_col": 31, "end_line": 558, "start_col": 28, "start_line": 551 }
FStar.Pervasives.Lemma
val carry_full_felem5_fits_lemma0: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in fe...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_full_felem5_fits_lemma0 #w (f0, f1, f2, f3, f4) = let tmp0,c0 = carry26 f0 (zero w) in carry26_fits_lemma 1 8 f0 (zero w); let tmp1,c1 = carry26 f1 c0 in carry26_fits_lemma 1 8 f1 c0; let tmp2,c2 = carry26 f2 c1 in carry26_fits_lemma 1 8 f2 c1; let tmp3,c3 = carry26 f3 c2 in carry26_fits_lemma...
val carry_full_felem5_fits_lemma0: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in fe...
false
null
true
let tmp0, c0 = carry26 f0 (zero w) in carry26_fits_lemma 1 8 f0 (zero w); let tmp1, c1 = carry26 f1 c0 in carry26_fits_lemma 1 8 f1 c0; let tmp2, c2 = carry26 f2 c1 in carry26_fits_lemma 1 8 f2 c1; let tmp3, c3 = carry26 f3 c2 in carry26_fits_lemma 1 8 f3 c2; let tmp4, c4 = carry26 f4 c3 in carry26_fits_lemma 1 8 f4 c3...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Prims._assert", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "Prims.unit", "Hacl.Poly...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_full_felem5_fits_lemma0: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in fe...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_fits_lemma0
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 f (8, 8, 8, 8, 8)} -> FStar.Pervasives.Lemma (ensures (let _ = f in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ f0 f1 f2 f3 f4 = _ in let _ = Hacl.Spec.Poly1305.Field32xN.carry26 ...
{ "end_col": 29, "end_line": 705, "start_col": 59, "start_line": 693 }
FStar.Pervasives.Lemma
val carry26_wide_zero_eq: #w:lanes -> f:uint64xN w -> Lemma (carry26_wide_zero f == carry26_wide f (zero w))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_wide_zero_eq #w f = let l1 = vec_add_mod f (zero w) in assert (vec_v l1 == map2 ( +. ) (vec_v f) (vec_v (zero w))); assert (forall (i:nat{i < w}). uint_v (vec_v l1).[i] == uint_v (vec_v f).[i]); assert (forall (i:nat{i < w}). (vec_v l1).[i] == (vec_v f).[i]); eq_intro (vec_v l1) (vec_v f); asser...
val carry26_wide_zero_eq: #w:lanes -> f:uint64xN w -> Lemma (carry26_wide_zero f == carry26_wide f (zero w)) let carry26_wide_zero_eq #w f =
false
null
true
let l1 = vec_add_mod f (zero w) in assert (vec_v l1 == map2 ( +. ) (vec_v f) (vec_v (zero w))); assert (forall (i: nat{i < w}). uint_v (vec_v l1).[ i ] == uint_v (vec_v f).[ i ]); assert (forall (i: nat{i < w}). (vec_v l1).[ i ] == (vec_v f).[ i ]); eq_intro (vec_v l1) (vec_v f); assert (vec_v l1 == vec_v f); vecv_exte...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Lib.IntVector.vecv_extensionality", "Lib.IntTypes.U64", "Prims.unit", "Prims._assert", "Prims.eq2", "Lib.IntVector.vec_v_t", "Lib.IntVector.vec_v", "Lib.Sequence.eq_intro", "Lib.IntTypes.uint_t", "Lib.IntTypes.SEC"...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_wide_zero_eq: #w:lanes -> f:uint64xN w -> Lemma (carry26_wide_zero f == carry26_wide f (zero w))
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_wide_zero_eq
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.uint64xN w -> FStar.Pervasives.Lemma (ensures Hacl.Poly1305.Field32xN.Lemmas1.carry26_wide_zero f == Hacl.Spec.Poly1305.Field32xN.carry26_wide f (Hacl.Spec.Poly1305.Field32xN.zero w))
{ "end_col": 26, "end_line": 34, "start_col": 31, "start_line": 27 }
FStar.Pervasives.Lemma
val carry_full_felem5_fits_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (acc_inv_t (carry_full_felem5 f))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_full_felem5_fits_lemma #w f = let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in carry_full_felem5_fits_lemma0 #w f; assert (felem_fits1 tmp0 1 /\ uint6...
val carry_full_felem5_fits_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (acc_inv_t (carry_full_felem5 f)) let carry_full_felem5_fits_lemma #w f =
false
null
true
let f0, f1, f2, f3, f4 = f in let tmp0, c0 = carry26 f0 (zero w) in let tmp1, c1 = carry26 f1 c0 in let tmp2, c2 = carry26 f2 c1 in let tmp3, c3 = carry26 f3 c2 in let tmp4, c4 = carry26 f4 c3 in carry_full_felem5_fits_lemma0 #w f; assert (felem_fits1 tmp0 1 /\ uint64xN_fits c4 9); let tmp0' = vec_add_mod tmp0 (vec_smu...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_lemma", "Lib.IntVector.vec_smul_mod", "Lib.IntTy...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_full_felem5_fits_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (acc_inv_t (carry_full_felem5 f))
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_fits_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 f (8, 8, 8, 8, 8)} -> FStar.Pervasives.Lemma (ensures Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t (Hacl.Spec.Poly1305.Field32xN.carry_full_felem5 f))
{ "end_col": 72, "end_line": 720, "start_col": 39, "start_line": 710 }
FStar.Pervasives.Lemma
val lemma_subtract_p5_0: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in (v f4 <> 0x3ffffff || v f3 <> 0x3ffffff || v f2 <> 0x3ffffff || v f1 <> 0x3ffffff || v f0 < 0x3fffffb) /\ (v f0' = v f0 && v ...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let lemma_subtract_p5_0 f f' = let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in assert_norm (max26 = pow2 26 - 1); assert_norm (0x3ffffff = max26); assert_norm (0x3fffffb = max26 - 4); assert (as_nat5 f == v f0 + v f1 * pow26 + v f2 * pow52 + v f3 * pow78 + v f4 * pow104); assert (as_...
val lemma_subtract_p5_0: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in (v f4 <> 0x3ffffff || v f3 <> 0x3ffffff || v f2 <> 0x3ffffff || v f1 <> 0x3ffffff || v f0 < 0x3fffffb) /\ (v f0' = v f0 && v ...
false
null
true
let f0, f1, f2, f3, f4 = f in let f0', f1', f2', f3', f4' = f' in assert_norm (max26 = pow2 26 - 1); assert_norm (0x3ffffff = max26); assert_norm (0x3fffffb = max26 - 4); assert (as_nat5 f == v f0 + v f1 * pow26 + v f2 * pow52 + v f3 * pow78 + v f4 * pow104); assert (as_nat5 f <= pow26 - 5 + (pow2 26 - 1) * pow26 +...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.tup64_5", "Hacl.Spec.Poly1305.Field32xN.tup64_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Lib.IntTypes.uint64", "FStar.Math.Lemmas.modulo_lemma", "Hacl.Spec.Poly1305.Field32xN.as_nat5", "Hacl.Spec.Poly1305.Vec.prime", "Prims.unit", "Prims._assert", "Pr...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val lemma_subtract_p5_0: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in (v f4 <> 0x3ffffff || v f3 <> 0x3ffffff || v f2 <> 0x3ffffff || v f1 <> 0x3ffffff || v f0 < 0x3fffffb) /\ (v f0' = v f0 && v ...
[]
Hacl.Poly1305.Field32xN.Lemmas1.lemma_subtract_p5_0
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.tup64_5 {Hacl.Spec.Poly1305.Field32xN.tup64_fits5 f (1, 1, 1, 1, 1)} -> f': Hacl.Spec.Poly1305.Field32xN.tup64_5 -> FStar.Pervasives.Lemma (requires (let _ = f in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ f0 f1 f2 f3 f4 = _ in ...
{ "end_col": 51, "end_line": 495, "start_col": 30, "start_line": 484 }
FStar.Pervasives.Lemma
val carry_full_felem5_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (felem_fits5 (carry_full_felem5 f) (2, 1, 1, 1, 1) /\ feval5 (carry_full_felem5 f) == feval5 f)
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_full_felem5_lemma #w f = carry_full_felem5_eval_lemma f; carry_full_felem5_fits_lemma f
val carry_full_felem5_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (felem_fits5 (carry_full_felem5 f) (2, 1, 1, 1, 1) /\ feval5 (carry_full_felem5 f) == feval5 f) let carry_full_felem5_lemma #w f =
false
null
true
carry_full_felem5_eval_lemma f; carry_full_felem5_fits_lemma f
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_fits_lemma", "Prims.unit", "Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_eva...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_full_felem5_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (8, 8, 8, 8, 8)} -> Lemma (felem_fits5 (carry_full_felem5 f) (2, 1, 1, 1, 1) /\ feval5 (carry_full_felem5 f) == feval5 f)
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 f (8, 8, 8, 8, 8)} -> FStar.Pervasives.Lemma (ensures Hacl.Spec.Poly1305.Field32xN.felem_fits5 (Hacl.Spec.Poly1305.Field32xN.carry_full_felem5 f) (2, 1, 1, 1, 1) /\ Hacl.Spec.Poly1305.Field32x...
{ "end_col": 32, "end_line": 879, "start_col": 2, "start_line": 878 }
FStar.Pervasives.Lemma
val subtract_p5_felem5_lemma_i: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> i:nat{i < w} -> Lemma (tup64_fits5 (as_tup64_i (subtract_p5 #w f) i) (1, 1, 1, 1, 1) /\ as_nat5 (as_tup64_i (subtract_p5 #w f) i) == as_nat5 (as_tup64_i f i) % prime)
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let subtract_p5_felem5_lemma_i #w f i = assert (subtract_p5_s #w f i == as_tup64_i (subtract_p5 #w f) i)
val subtract_p5_felem5_lemma_i: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> i:nat{i < w} -> Lemma (tup64_fits5 (as_tup64_i (subtract_p5 #w f) i) (1, 1, 1, 1, 1) /\ as_nat5 (as_tup64_i (subtract_p5 #w f) i) == as_nat5 (as_tup64_i f i) % prime) let subtract_p5_felem5_lemma_i #w f i =
false
null
true
assert (subtract_p5_s #w f i == as_tup64_i (subtract_p5 #w f) i)
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Prims._assert", "Prims.eq2", "Hacl.Spec.Poly1305.Field32xN.tup64_5", "Hacl.Poly1305.Field32...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "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_el...
null
val subtract_p5_felem5_lemma_i: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> i:nat{i < w} -> Lemma (tup64_fits5 (as_tup64_i (subtract_p5 #w f) i) (1, 1, 1, 1, 1) /\ as_nat5 (as_tup64_i (subtract_p5 #w f) i) == as_nat5 (as_tup64_i f i) % prime)
[]
Hacl.Poly1305.Field32xN.Lemmas1.subtract_p5_felem5_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 f (1, 1, 1, 1, 1)} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures Hacl.Spec.Poly1305.Field32xN.tup64_fits5 (Hacl.Spec.Poly1305.Field32xN.as_tup64_i (Hacl.Spec.Poly1305.Field32xN.subtract_p5 ...
{ "end_col": 66, "end_line": 608, "start_col": 2, "start_line": 608 }
FStar.Pervasives.Lemma
val carry_reduce_lemma_i: #w:lanes -> l:uint64xN w -> cin:uint64xN w -> i:nat{i < w} -> Lemma (requires (uint64xN_v l).[i] <= 2 * max26 /\ (uint64xN_v cin).[i] <= 62 * max26) (ensures (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] <= 63 /\ (uin...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_reduce_lemma_i #w l cin i = let li = (vec_v l).[i] in let cini = (vec_v cin).[i] in let mask26 = u64 0x3ffffff in assert_norm (0x3ffffff = pow2 26 - 1); FStar.Math.Lemmas.modulo_lemma (v li + v cini) (pow2 64); let li' = li +! cini in let li0 = li' &. mask26 in let li1 = li' >>. 26ul in mod_...
val carry_reduce_lemma_i: #w:lanes -> l:uint64xN w -> cin:uint64xN w -> i:nat{i < w} -> Lemma (requires (uint64xN_v l).[i] <= 2 * max26 /\ (uint64xN_v cin).[i] <= 62 * max26) (ensures (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] <= 63 /\ (uin...
false
null
true
let li = (vec_v l).[ i ] in let cini = (vec_v cin).[ i ] in let mask26 = u64 0x3ffffff in assert_norm (0x3ffffff = pow2 26 - 1); FStar.Math.Lemmas.modulo_lemma (v li + v cini) (pow2 64); let li' = li +! cini in let li0 = li' &. mask26 in let li1 = li' >>. 26ul in mod_mask_lemma li' 26ul; assert (v (mod_mask #U64 #SEC 2...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "FStar.Math.Lemmas.pow2_minus", "Prims.unit", "FStar.Math.Lemmas.pow2_modulo_modulo_lemma_1", "Lib.IntTypes.v", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "Prims._assert",...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_reduce_lemma_i: #w:lanes -> l:uint64xN w -> cin:uint64xN w -> i:nat{i < w} -> Lemma (requires (uint64xN_v l).[i] <= 2 * max26 /\ (uint64xN_v cin).[i] <= 62 * max26) (ensures (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] <= 63 /\ (uin...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
l: Hacl.Spec.Poly1305.Field32xN.uint64xN w -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (requires (Hacl.Spec.Poly1305.Field32xN.uint64xN_v l).[ i ] <= 2 * Hacl.Spec.Poly1305.Field32xN.max26 /\ (Hacl.Spec.Poly1305.Field32xN.uint64xN...
{ "end_col": 36, "end_line": 909, "start_col": 37, "start_line": 897 }
Prims.Pure
val subtract_p5_s: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> i:nat{i < w} -> Pure tup64_5 (requires True) (ensures fun out -> tup64_fits5 out (1, 1, 1, 1, 1) /\ as_nat5 out == as_nat5 (as_tup64_i f i) % prime)
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let subtract_p5_s #w f i = let (f0, f1, f2, f3, f4) = as_tup64_i f i in let mask0 = eq_mask f4 (u64 0x3ffffff) in let mask1 = mask0 &. eq_mask f3 (u64 0x3ffffff) in let mask2 = mask1 &. eq_mask f2 (u64 0x3ffffff) in let mask3 = mask2 &. eq_mask f1 (u64 0x3ffffff) in let mask4 = mask3 &. gte_mask f0 (u64 0x3...
val subtract_p5_s: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> i:nat{i < w} -> Pure tup64_5 (requires True) (ensures fun out -> tup64_fits5 out (1, 1, 1, 1, 1) /\ as_nat5 out == as_nat5 (as_tup64_i f i) % prime) let subtract_p5_s #w f i =
false
null
false
let f0, f1, f2, f3, f4 = as_tup64_i f i in let mask0 = eq_mask f4 (u64 0x3ffffff) in let mask1 = mask0 &. eq_mask f3 (u64 0x3ffffff) in let mask2 = mask1 &. eq_mask f2 (u64 0x3ffffff) in let mask3 = mask2 &. eq_mask f1 (u64 0x3ffffff) in let mask4 = mask3 &. gte_mask f0 (u64 0x3fffffb) in let p0 = mask4 &. u64 0x3fffff...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Lib.IntTypes.uint64", "Prims.unit", "Hacl.Poly1305.Field32xN.Lemmas1.lemma_subtract_p5", "L...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val subtract_p5_s: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> i:nat{i < w} -> Pure tup64_5 (requires True) (ensures fun out -> tup64_fits5 out (1, 1, 1, 1, 1) /\ as_nat5 out == as_nat5 (as_tup64_i f i) % prime)
[]
Hacl.Poly1305.Field32xN.Lemmas1.subtract_p5_s
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 f (1, 1, 1, 1, 1)} -> i: Prims.nat{i < w} -> Prims.Pure Hacl.Spec.Poly1305.Field32xN.tup64_5
{ "end_col": 27, "end_line": 595, "start_col": 26, "start_line": 573 }
FStar.Pervasives.Lemma
val carry_reduce_felem5_lemma: #w:lanes -> f:felem5 w{acc_inv_t f} -> Lemma (felem_fits5 (carry_full_felem5 f) (1, 1, 1, 1, 1) /\ feval5 (carry_full_felem5 f) == feval5 f)
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_reduce_felem5_lemma #w f = carry_reduce_felem5_fits_lemma #w f; carry_full_felem5_eval_lemma f
val carry_reduce_felem5_lemma: #w:lanes -> f:felem5 w{acc_inv_t f} -> Lemma (felem_fits5 (carry_full_felem5 f) (1, 1, 1, 1, 1) /\ feval5 (carry_full_felem5 f) == feval5 f) let carry_reduce_felem5_lemma #w f =
false
null
true
carry_reduce_felem5_fits_lemma #w f; carry_full_felem5_eval_lemma f
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t", "Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_eval_lemma", "Prims.unit", "Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_felem5_fits_lemma" ]
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_reduce_felem5_lemma: #w:lanes -> f:felem5 w{acc_inv_t f} -> Lemma (felem_fits5 (carry_full_felem5 f) (1, 1, 1, 1, 1) /\ feval5 (carry_full_felem5 f) == feval5 f)
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_felem5_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t f} -> FStar.Pervasives.Lemma (ensures Hacl.Spec.Poly1305.Field32xN.felem_fits5 (Hacl.Spec.Poly1305.Field32xN.carry_full_felem5 f) (1, 1, 1, 1, 1) /\ Hacl.Spec.Poly1305.Field32xN.feval5 (Hacl.Spec.Poly1305.Field...
{ "end_col": 32, "end_line": 1033, "start_col": 2, "start_line": 1032 }
FStar.Pervasives.Lemma
val vec_smul_mod_five: #w:lanes -> f:uint64xN w{uint64xN_fits f (4096 * max26)} -> Lemma (vec_smul_mod f (u64 5) == vec_add_mod f (vec_shift_left f 2ul))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let vec_smul_mod_five #w f = let r1 = vec_smul_mod f (u64 5) in let r2 = vec_add_mod f (vec_shift_left f 2ul) in Classical.forall_intro (vec_smul_mod_five_i #w f); eq_intro (vec_v r1) (vec_v r2); vecv_extensionality r1 r2
val vec_smul_mod_five: #w:lanes -> f:uint64xN w{uint64xN_fits f (4096 * max26)} -> Lemma (vec_smul_mod f (u64 5) == vec_add_mod f (vec_shift_left f 2ul)) let vec_smul_mod_five #w f =
false
null
true
let r1 = vec_smul_mod f (u64 5) in let r2 = vec_add_mod f (vec_shift_left f 2ul) in Classical.forall_intro (vec_smul_mod_five_i #w f); eq_intro (vec_v r1) (vec_v r2); vecv_extensionality r1 r2
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.max26", "Lib.IntVector.vecv_extensionality", "Lib.IntTypes.U64", "Prims.unit", "Lib.Sequence.eq_intro", "Lib.IntTypes.uint...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val vec_smul_mod_five: #w:lanes -> f:uint64xN w{uint64xN_fits f (4096 * max26)} -> Lemma (vec_smul_mod f (u64 5) == vec_add_mod f (vec_shift_left f 2ul))
[]
Hacl.Poly1305.Field32xN.Lemmas1.vec_smul_mod_five
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits f (4096 * Hacl.Spec.Poly1305.Field32xN.max26)} -> FStar.Pervasives.Lemma (ensures Lib.IntVector.vec_smul_mod f (Lib.IntTypes.u64 5) == Lib.IntVector.vec_add_mod f (Lib.IntVector.vec_shift_left f 2...
{ "end_col": 27, "end_line": 55, "start_col": 28, "start_line": 50 }
FStar.Pervasives.Lemma
val vec_smul_mod_five_i: #w:lanes -> f:uint64xN w{uint64xN_fits f (4096 * max26)} -> i:nat{i < w} -> Lemma (u64 5 *. (vec_v f).[i] == (vec_v f).[i] +. ((vec_v f).[i] <<. 2ul))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let vec_smul_mod_five_i #w f i = let f = (vec_v f).[i] in assert (v (f <<. 2ul) == (v f * pow2 2) % pow2 64); Math.Lemmas.small_mod (v f * pow2 2) (pow2 64); Math.Lemmas.small_mod (v f + v f * pow2 2) (pow2 64); Math.Lemmas.small_mod (5 * v f) (pow2 64); assert (5 * v f == v f + v f * 4); v_injective (u64...
val vec_smul_mod_five_i: #w:lanes -> f:uint64xN w{uint64xN_fits f (4096 * max26)} -> i:nat{i < w} -> Lemma (u64 5 *. (vec_v f).[i] == (vec_v f).[i] +. ((vec_v f).[i] <<. 2ul)) let vec_smul_mod_five_i #w f i =
false
null
true
let f = (vec_v f).[ i ] in assert (v (f <<. 2ul) == (v f * pow2 2) % pow2 64); Math.Lemmas.small_mod (v f * pow2 2) (pow2 64); Math.Lemmas.small_mod (v f + v f * pow2 2) (pow2 64); Math.Lemmas.small_mod (5 * v f) (pow2 64); assert (5 * v f == v f + v f * 4); v_injective (u64 5 *. f); v_injective (f +. (f <<. 2ul))
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.max26", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Lib.IntTypes.v_injective", "Lib.IntTypes.U64", "Lib.IntTypes.SEC...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val vec_smul_mod_five_i: #w:lanes -> f:uint64xN w{uint64xN_fits f (4096 * max26)} -> i:nat{i < w} -> Lemma (u64 5 *. (vec_v f).[i] == (vec_v f).[i] +. ((vec_v f).[i] <<. 2ul))
[]
Hacl.Poly1305.Field32xN.Lemmas1.vec_smul_mod_five_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits f (4096 * Hacl.Spec.Poly1305.Field32xN.max26)} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures Lib.IntTypes.u64 5 *. (Lib.IntVector.vec_v f).[ i ] == (Lib.IntVector.vec_v f).[ i ] +....
{ "end_col": 32, "end_line": 46, "start_col": 32, "start_line": 38 }
FStar.Pervasives.Lemma
val carry_wide_felem5_fits_lemma0: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> Lemma (let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in let ...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_wide_felem5_fits_lemma0 #w inp = let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in carry26_wide_zero_eq x0; carry26_wide_fits_lemma #w #126 x0 (zero w); let t1, c1 = carry26_wide x1 c0 in carry26_wide_fits_lemma #w #102 x1 c0; let t2, c2 = carry26_wide x2 c1 in carry26_wid...
val carry_wide_felem5_fits_lemma0: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> Lemma (let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in let ...
false
null
true
let x0, x1, x2, x3, x4 = inp in let t0, c0 = carry26_wide_zero x0 in carry26_wide_zero_eq x0; carry26_wide_fits_lemma #w #126 x0 (zero w); let t1, c1 = carry26_wide x1 c0 in carry26_wide_fits_lemma #w #102 x1 c0; let t2, c2 = carry26_wide x2 c1 in carry26_wide_fits_lemma #w #78 x2 c1; let t3, c3 = carry26_wide_zero x3 ...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Poly1305.Field32xN.Lemmas1.carry26_wide_fits_lemma", "Prims.unit", "FStar...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_wide_felem5_fits_lemma0: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> Lemma (let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in let ...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_wide_felem5_fits_lemma0
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w {Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> FStar.Pervasives.Lemma (ensures (let _ = inp in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ x0 x1 x2 x3 x4 = _ in let _ = Hacl.Poly1305....
{ "end_col": 38, "end_line": 268, "start_col": 42, "start_line": 253 }
FStar.Pervasives.Lemma
val acc_inv_lemma_i: #w:lanes -> acc:felem5 w{felem_fits5 acc (1, 1, 1, 1, 1)} -> cin:uint64xN w{uint64xN_fits cin 45} -> i:nat{i < w} -> Lemma (let (i0, i1, i2, i3, i4) = acc in let i0' = vec_add_mod i0 cin in let acc1 = (i0', i1, i2, i3, i4) in (if (uint64xN_v i0').[i] >= pow2 26 then tup64_...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let acc_inv_lemma_i #w acc cin i = let (i0, i1, i2, i3, i4) = acc in let i0' = vec_add_mod i0 cin in assert ((vec_v i0').[i] == (vec_v i0).[i] +. (vec_v cin).[i]); assert ((uint64xN_v i0).[i] + (uint64xN_v cin).[i] <= max26 + 46); assert_norm (max26 = pow2 26 - 1); FStar.Math.Lemmas.euclidean_division_defin...
val acc_inv_lemma_i: #w:lanes -> acc:felem5 w{felem_fits5 acc (1, 1, 1, 1, 1)} -> cin:uint64xN w{uint64xN_fits cin 45} -> i:nat{i < w} -> Lemma (let (i0, i1, i2, i3, i4) = acc in let i0' = vec_add_mod i0 cin in let acc1 = (i0', i1, i2, i3, i4) in (if (uint64xN_v i0').[i] >= pow2 26 then tup64_...
false
null
true
let i0, i1, i2, i3, i4 = acc in let i0' = vec_add_mod i0 cin in assert ((vec_v i0').[ i ] == (vec_v i0).[ i ] +. (vec_v cin).[ i ]); assert ((uint64xN_v i0).[ i ] + (uint64xN_v cin).[ i ] <= max26 + 46); assert_norm (max26 = pow2 26 - 1); FStar.Math.Lemmas.euclidean_division_definition ((uint64xN_v i0).[ i ] + (uint64x...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "Prims.b2t", "Prims.op_LessThan", "FStar....
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val acc_inv_lemma_i: #w:lanes -> acc:felem5 w{felem_fits5 acc (1, 1, 1, 1, 1)} -> cin:uint64xN w{uint64xN_fits cin 45} -> i:nat{i < w} -> Lemma (let (i0, i1, i2, i3, i4) = acc in let i0' = vec_add_mod i0 cin in let acc1 = (i0', i1, i2, i3, i4) in (if (uint64xN_v i0').[i] >= pow2 26 then tup64_...
[]
Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
acc: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 acc (1, 1, 1, 1, 1)} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin 45} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures (let _ = acc in ...
{ "end_col": 104, "end_line": 661, "start_col": 34, "start_line": 655 }
FStar.Pervasives.Lemma
val carry_wide_felem5_fits_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures felem_fits5 (carry_wide_felem5 inp) (1, 2, 1, 1, 2))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_wide_felem5_fits_lemma #w inp = let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in let t3', c6 = carry26 t3 c2 in let t4, c4 = carry26_wide x4 c3 in let t4' = vec_add_...
val carry_wide_felem5_fits_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures felem_fits5 (carry_wide_felem5 inp) (1, 2, 1, 1, 2)) let carry_wide_felem5_fits_lemma #w inp =
false
null
true
let x0, x1, x2, x3, x4 = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in let t3', c6 = carry26 t3 c2 in let t4, c4 = carry26_wide x4 c3 in let t4' = vec_add_mod t4 c6 in carry_wide_felem5_fits_lemma0 #w inp; vec_smul_...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Poly1305.Field32xN.Lemmas1.carry26_fits_lemma", "Lib.IntVector.vec_smul_mod", "Lib.IntTypes.U64", "Lib.IntTypes.u64", "Prims.unit", "FStar.Pervasives.Native.tuple2", "Ha...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_wide_felem5_fits_lemma: #w:lanes -> inp:felem_wide5 w -> Lemma (requires felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures felem_fits5 (carry_wide_felem5 inp) (1, 2, 1, 1, 2))
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_wide_felem5_fits_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w -> FStar.Pervasives.Lemma (requires Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5 inp (126, 102, 78, 54, 30)) (ensures Hacl.Spec.Poly1305.Field32xN.felem_fits5 (Hacl.Spec.Poly1305.Field32xN.carry_wide_felem5 inp ) (1, 2, 1, 1, 2))
{ "end_col": 55, "end_line": 291, "start_col": 41, "start_line": 279 }
FStar.Pervasives.Lemma
val carry_reduce_felem5_fits_lemma_i1: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_reduce_felem5_fits_lemma_i1 #w f i = let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in carry_reduce_lemma_i f0 (zero w) i; let tmp1,c1 = carry26 f1 c0 in carry_reduce_lemma_i f1 c0 i; let tmp2,c2 = carry26 f2 c1 in carry_reduce_lemma_i f2 c1 i; let tmp3,c3 = carry26 f3 c2 in...
val carry_reduce_felem5_fits_lemma_i1: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in...
false
null
true
let f0, f1, f2, f3, f4 = f in let tmp0, c0 = carry26 f0 (zero w) in carry_reduce_lemma_i f0 (zero w) i; let tmp1, c1 = carry26 f1 c0 in carry_reduce_lemma_i f1 c0 i; let tmp2, c2 = carry26 f2 c1 in carry_reduce_lemma_i f2 c1 i; let tmp3, c3 = carry26 f3 c2 in carry_reduce_lemma_i f3 c2 i; let tmp4, c4 = carry26 f4 c3 i...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Prims._assert", "Hacl.Spec.Poly1305.Field32xN.tup64_fits5", "Hacl.Spec.Poly1305.Field32...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_reduce_felem5_fits_lemma_i1: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_felem5_fits_lemma_i1
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t f} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures (let _ = f in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ f0 f1 f2 f3 f4 = _ in let _ = Hacl.Spec.Poly1305.Field32xN.carry26 f0...
{ "end_col": 57, "end_line": 977, "start_col": 46, "start_line": 964 }
FStar.Pervasives.Lemma
val carry_reduce_felem5_fits_lemma: #w:lanes -> f:felem5 w{acc_inv_t f} -> Lemma (felem_fits5 (carry_full_felem5 f) (1, 1, 1, 1, 1))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_reduce_felem5_fits_lemma #w f = match w with | 1 -> carry_reduce_felem5_fits_lemma_i #w f 0 | 2 -> carry_reduce_felem5_fits_lemma_i #w f 0; carry_reduce_felem5_fits_lemma_i #w f 1 | 4 -> carry_reduce_felem5_fits_lemma_i #w f 0; carry_reduce_felem5_fits_lemma_i #w f 1; carry_red...
val carry_reduce_felem5_fits_lemma: #w:lanes -> f:felem5 w{acc_inv_t f} -> Lemma (felem_fits5 (carry_full_felem5 f) (1, 1, 1, 1, 1)) let carry_reduce_felem5_fits_lemma #w f =
false
null
true
match w with | 1 -> carry_reduce_felem5_fits_lemma_i #w f 0 | 2 -> carry_reduce_felem5_fits_lemma_i #w f 0; carry_reduce_felem5_fits_lemma_i #w f 1 | 4 -> carry_reduce_felem5_fits_lemma_i #w f 0; carry_reduce_felem5_fits_lemma_i #w f 1; carry_reduce_felem5_fits_lemma_i #w f 2; carry_reduce_felem5_fits_lemma...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t", "Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_felem5_fits_lemma_i", "Prims.unit" ]
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_reduce_felem5_fits_lemma: #w:lanes -> f:felem5 w{acc_inv_t f} -> Lemma (felem_fits5 (carry_full_felem5 f) (1, 1, 1, 1, 1))
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_felem5_fits_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t f} -> FStar.Pervasives.Lemma (ensures Hacl.Spec.Poly1305.Field32xN.felem_fits5 (Hacl.Spec.Poly1305.Field32xN.carry_full_felem5 f) (1, 1, 1, 1, 1))
{ "end_col": 43, "end_line": 1021, "start_col": 2, "start_line": 1011 }
FStar.Pervasives.Lemma
val acc_inv_lemma: #w:lanes -> acc:felem5 w{felem_fits5 acc (1, 1, 1, 1, 1)} -> cin:uint64xN w{uint64xN_fits cin 45} -> Lemma (let (i0, i1, i2, i3, i4) = acc in let i0' = vec_add_mod i0 cin in acc_inv_t (i0', i1, i2, i3, i4))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let acc_inv_lemma #w acc cin = match w with | 1 -> acc_inv_lemma_i #w acc cin 0 | 2 -> acc_inv_lemma_i #w acc cin 0; acc_inv_lemma_i #w acc cin 1 | 4 -> acc_inv_lemma_i #w acc cin 0; acc_inv_lemma_i #w acc cin 1; acc_inv_lemma_i #w acc cin 2; acc_inv_lemma_i #w acc cin 3
val acc_inv_lemma: #w:lanes -> acc:felem5 w{felem_fits5 acc (1, 1, 1, 1, 1)} -> cin:uint64xN w{uint64xN_fits cin 45} -> Lemma (let (i0, i1, i2, i3, i4) = acc in let i0' = vec_add_mod i0 cin in acc_inv_t (i0', i1, i2, i3, i4)) let acc_inv_lemma #w acc cin =
false
null
true
match w with | 1 -> acc_inv_lemma_i #w acc cin 0 | 2 -> acc_inv_lemma_i #w acc cin 0; acc_inv_lemma_i #w acc cin 1 | 4 -> acc_inv_lemma_i #w acc cin 0; acc_inv_lemma_i #w acc cin 1; acc_inv_lemma_i #w acc cin 2; acc_inv_lemma_i #w acc cin 3
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_lemm...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val acc_inv_lemma: #w:lanes -> acc:felem5 w{felem_fits5 acc (1, 1, 1, 1, 1)} -> cin:uint64xN w{uint64xN_fits cin 45} -> Lemma (let (i0, i1, i2, i3, i4) = acc in let i0' = vec_add_mod i0 cin in acc_inv_t (i0', i1, i2, i3, i4))
[]
Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
acc: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 acc (1, 1, 1, 1, 1)} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin 45} -> FStar.Pervasives.Lemma (ensures (let _ = acc in (let FStar.Pervasive...
{ "end_col": 32, "end_line": 683, "start_col": 2, "start_line": 673 }
FStar.Pervasives.Lemma
val carry26_wide_eval_lemma: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in //felem_fits1 l0 1 /\ uint64xN_fits l1 ((m + 1) * max26) /\ (forall (i:nat). i < w ==> (uint64xN_v l).[i] + (uint...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_wide_eval_lemma #w #m l cin = carry26_wide_fits_lemma #w #m l cin; match w with | 1 -> carry26_wide_lemma_i #w #m l cin 0 | 2 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1 | 4 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1;...
val carry26_wide_eval_lemma: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in //felem_fits1 l0 1 /\ uint64xN_fits l1 ((m + 1) * max26) /\ (forall (i:nat). i < w ==> (uint64xN_v l).[i] + (uint...
false
null
true
carry26_wide_fits_lemma #w #m l cin; match w with | 1 -> carry26_wide_lemma_i #w #m l cin 0 | 2 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1 | 4 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1; carry26_wide_lemma_i #w #m l cin 2; carry26_wide_lemma_i #w...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.scale64", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.felem_wide_fits1", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.max26", "Hacl.Poly1305.Field32xN.Lemm...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_wide_eval_lemma: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in //felem_fits1 l0 1 /\ uint64xN_fits l1 ((m + 1) * max26) /\ (forall (i:nat). i < w ==> (uint64xN_v l).[i] + (uint...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_wide_eval_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
l: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.felem_wide_fits1 l m} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin (4096 * Hacl.Spec.Poly1305.Field32xN.max26)} -> FStar.Pervasives.Lemma (ensures (let _ = Hacl....
{ "end_col": 38, "end_line": 160, "start_col": 2, "start_line": 149 }
FStar.Pervasives.Lemma
val carry26_wide_lemma_i: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> i:nat{i < w} -> Lemma (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] <= (m + 1) * max26 /\ (uint64xN_v l).[i] + (ui...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_wide_lemma_i #w #m l cin i = let l = (vec_v l).[i] in let cin = (vec_v cin).[i] in let mask26 = u64 0x3ffffff in assert_norm (0x3ffffff = pow2 26 - 1); FStar.Math.Lemmas.modulo_lemma (v l + v cin) (pow2 64); let l' = l +! cin in let l0 = l' &. mask26 in let l1 = l' >>. 26ul in mod_mask_lem...
val carry26_wide_lemma_i: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> i:nat{i < w} -> Lemma (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] <= (m + 1) * max26 /\ (uint64xN_v l).[i] + (ui...
false
null
true
let l = (vec_v l).[ i ] in let cin = (vec_v cin).[ i ] in let mask26 = u64 0x3ffffff in assert_norm (0x3ffffff = pow2 26 - 1); FStar.Math.Lemmas.modulo_lemma (v l + v cin) (pow2 64); let l' = l +! cin in let l0 = l' &. mask26 in let l1 = l' >>. 26ul in mod_mask_lemma l' 26ul; assert (v (mod_mask #U64 #SEC 26ul) == v ma...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.scale64", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.felem_wide_fits1", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.max26", "Prims.nat", "Prims.b2t", ...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_wide_lemma_i: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> i:nat{i < w} -> Lemma (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] <= (m + 1) * max26 /\ (uint64xN_v l).[i] + (ui...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_wide_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
l: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.felem_wide_fits1 l m} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin (4096 * Hacl.Spec.Poly1305.Field32xN.max26)} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (e...
{ "end_col": 66, "end_line": 109, "start_col": 40, "start_line": 97 }
FStar.Pervasives.Lemma
val carry_full_felem5_eval_lemma_i1: #w:lanes -> inp:felem_wide5 w{felem_fits5 inp (8, 8, 8, 8, 8)} -> i:nat{i < w} -> Lemma (let (i0, i1, i2, i3, i4) = inp in let tmp0,c0 = carry26 i0 (zero w) in let tmp1,c1 = carry26 i1 c0 in let tmp2,c2 = carry26 i2 c1 in let tmp3,c3 = carry26 i3 c2 in let...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_full_felem5_eval_lemma_i1 #w inp i = let (i0, i1, i2, i3, i4) = inp in let tmp0,c0 = carry26 i0 (zero w) in let tmp1,c1 = carry26 i1 c0 in let tmp2,c2 = carry26 i2 c1 in let tmp3,c3 = carry26 i3 c2 in let tmp4,c4 = carry26 i4 c3 in let tmp = (tmp0, tmp1, tmp2, tmp3, tmp4) in let (t0, t1, t2, ...
val carry_full_felem5_eval_lemma_i1: #w:lanes -> inp:felem_wide5 w{felem_fits5 inp (8, 8, 8, 8, 8)} -> i:nat{i < w} -> Lemma (let (i0, i1, i2, i3, i4) = inp in let tmp0,c0 = carry26 i0 (zero w) in let tmp1,c1 = carry26 i1 c0 in let tmp2,c2 = carry26 i2 c1 in let tmp3,c3 = carry26 i3 c2 in let...
false
null
true
let i0, i1, i2, i3, i4 = inp in let tmp0, c0 = carry26 i0 (zero w) in let tmp1, c1 = carry26 i1 c0 in let tmp2, c2 = carry26 i2 c1 in let tmp3, c3 = carry26 i3 c2 in let tmp4, c4 = carry26 i4 c3 in let tmp = (tmp0, tmp1, tmp2, tmp3, tmp4) in let t0, t1, t2, t3, t4 = as_tup64_i tmp i in let ti0, ti1, ti2, ti3, ti4 = as_...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Lib.IntTypes.uint64", "Prims._assert", "Prims...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_full_felem5_eval_lemma_i1: #w:lanes -> inp:felem_wide5 w{felem_fits5 inp (8, 8, 8, 8, 8)} -> i:nat{i < w} -> Lemma (let (i0, i1, i2, i3, i4) = inp in let tmp0,c0 = carry26 i0 (zero w) in let tmp1,c1 = carry26 i1 c0 in let tmp2,c2 = carry26 i2 c1 in let tmp3,c3 = carry26 i3 c2 in let...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_eval_lemma_i1
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 inp (8, 8, 8, 8, 8)} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures (let _ = inp in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ i0 i1 i2 i3 i4 = _ in let _ =...
{ "end_col": 89, "end_line": 822, "start_col": 46, "start_line": 792 }
FStar.Pervasives.Lemma
val subtract_p5_felem5_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> Lemma (felem_fits5 (subtract_p5 f) (1, 1, 1, 1, 1) /\ (fas_nat5 (subtract_p5 f)).[0] == (feval5 f).[0])
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let subtract_p5_felem5_lemma #w f = match w with | 1 -> subtract_p5_felem5_lemma_i #w f 0 | 2 -> subtract_p5_felem5_lemma_i #w f 0; subtract_p5_felem5_lemma_i #w f 1 | 4 -> subtract_p5_felem5_lemma_i #w f 0; subtract_p5_felem5_lemma_i #w f 1; subtract_p5_felem5_lemma_i #w f 2; subtra...
val subtract_p5_felem5_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> Lemma (felem_fits5 (subtract_p5 f) (1, 1, 1, 1, 1) /\ (fas_nat5 (subtract_p5 f)).[0] == (feval5 f).[0]) let subtract_p5_felem5_lemma #w f =
false
null
true
match w with | 1 -> subtract_p5_felem5_lemma_i #w f 0 | 2 -> subtract_p5_felem5_lemma_i #w f 0; subtract_p5_felem5_lemma_i #w f 1 | 4 -> subtract_p5_felem5_lemma_i #w f 0; subtract_p5_felem5_lemma_i #w f 1; subtract_p5_felem5_lemma_i #w f 2; subtract_p5_felem5_lemma_i #w f 3
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Hacl.Poly1305.Field32xN.Lemmas1.subtract_p5_felem5_lemma_i", "Prims.unit" ]
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val subtract_p5_felem5_lemma: #w:lanes -> f:felem5 w{felem_fits5 f (1, 1, 1, 1, 1)} -> Lemma (felem_fits5 (subtract_p5 f) (1, 1, 1, 1, 1) /\ (fas_nat5 (subtract_p5 f)).[0] == (feval5 f).[0])
[]
Hacl.Poly1305.Field32xN.Lemmas1.subtract_p5_felem5_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 f (1, 1, 1, 1, 1)} -> FStar.Pervasives.Lemma (ensures Hacl.Spec.Poly1305.Field32xN.felem_fits5 (Hacl.Spec.Poly1305.Field32xN.subtract_p5 f) (1, 1, 1, 1, 1) /\ (Hacl.Spec.Poly1305.Field32xN.fas...
{ "end_col": 37, "end_line": 629, "start_col": 2, "start_line": 619 }
FStar.Pervasives.Lemma
val carry26_lemma_i: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> i:nat{i < w} -> Lemma (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] < m + ml /\ (uint64xN_v l).[i] + (uint64xN_...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_lemma_i #w m ml l cin i = let l = (vec_v l).[i] in let cin = (vec_v cin).[i] in let mask26 = u64 0x3ffffff in assert_norm (0x3ffffff = pow2 26 - 1); FStar.Math.Lemmas.modulo_lemma (v l + v cin) (pow2 64); let l' = l +! cin in let l0 = l' &. mask26 in let l1 = l' >>. 26ul in mod_mask_lemma ...
val carry26_lemma_i: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> i:nat{i < w} -> Lemma (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] < m + ml /\ (uint64xN_v l).[i] + (uint64xN_...
false
null
true
let l = (vec_v l).[ i ] in let cin = (vec_v cin).[ i ] in let mask26 = u64 0x3ffffff in assert_norm (0x3ffffff = pow2 26 - 1); FStar.Math.Lemmas.modulo_lemma (v l + v cin) (pow2 64); let l' = l +! cin in let l0 = l' &. mask26 in let l1 = l' >>. 26ul in mod_mask_lemma l' 26ul; assert (v (mod_mask #U64 #SEC 26ul) == v ma...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.scale64", "Hacl.Spec.Poly1305.Field32xN.scale32", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.felem_fits1", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.ma...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_lemma_i: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> i:nat{i < w} -> Lemma (let (l0, l1) = carry26 #w l cin in (uint64xN_v l0).[i] <= max26 /\ (uint64xN_v l1).[i] < m + ml /\ (uint64xN_v l).[i] + (uint64xN_...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
m: Hacl.Spec.Poly1305.Field32xN.scale64 -> ml: Hacl.Spec.Poly1305.Field32xN.scale32 -> l: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.felem_fits1 l ml} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin (m * Hacl.Spec....
{ "end_col": 36, "end_line": 186, "start_col": 37, "start_line": 174 }
FStar.Pervasives.Lemma
val carry26_fits_lemma: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 (m + ml))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_fits_lemma #w m ml l cin = match w with | 1 -> carry26_lemma_i #w m ml l cin 0 | 2 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1 | 4 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1; carry26_lemma_i #w m ml l cin 2; carry26_lemma_i...
val carry26_fits_lemma: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 (m + ml)) let carry26_fits_lemma #w m ml l cin =
false
null
true
match w with | 1 -> carry26_lemma_i #w m ml l cin 0 | 2 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1 | 4 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1; carry26_lemma_i #w m ml l cin 2; carry26_lemma_i #w m ml l cin 3
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.scale64", "Hacl.Spec.Poly1305.Field32xN.scale32", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.felem_fits1", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.ma...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_fits_lemma: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 (m + ml))
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_fits_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
m: Hacl.Spec.Poly1305.Field32xN.scale64 -> ml: Hacl.Spec.Poly1305.Field32xN.scale32 -> l: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.felem_fits1 l ml} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin (m * Hacl.Spec....
{ "end_col": 35, "end_line": 210, "start_col": 2, "start_line": 200 }
FStar.Pervasives.Lemma
val carry26_eval_lemma: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 (m + ml) /\ (forall (i:nat). i < w ==> (uint64xN_v l).[i] + (uint64xN_v ci...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_eval_lemma #w m ml l cin = match w with | 1 -> carry26_lemma_i #w m ml l cin 0 | 2 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1 | 4 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1; carry26_lemma_i #w m ml l cin 2; carry26_lemma_i...
val carry26_eval_lemma: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 (m + ml) /\ (forall (i:nat). i < w ==> (uint64xN_v l).[i] + (uint64xN_v ci...
false
null
true
match w with | 1 -> carry26_lemma_i #w m ml l cin 0 | 2 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1 | 4 -> carry26_lemma_i #w m ml l cin 0; carry26_lemma_i #w m ml l cin 1; carry26_lemma_i #w m ml l cin 2; carry26_lemma_i #w m ml l cin 3
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.scale64", "Hacl.Spec.Poly1305.Field32xN.scale32", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.felem_fits1", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.ma...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_eval_lemma: #w:lanes -> m:scale64 -> ml:scale32 -> l:uint64xN w{felem_fits1 l ml} -> cin:uint64xN w{uint64xN_fits cin (m * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 (m + ml) /\ (forall (i:nat). i < w ==> (uint64xN_v l).[i] + (uint64xN_v ci...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_eval_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
m: Hacl.Spec.Poly1305.Field32xN.scale64 -> ml: Hacl.Spec.Poly1305.Field32xN.scale32 -> l: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.felem_fits1 l ml} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin (m * Hacl.Spec....
{ "end_col": 35, "end_line": 236, "start_col": 2, "start_line": 226 }
FStar.Pervasives.Lemma
val lemma_subtract_p5_1: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in (v f4 = 0x3ffffff && v f3 = 0x3ffffff && v f2 = 0x3ffffff && v f1 = 0x3ffffff && v f0 >= 0x3fffffb) /\ (v f0' = v f0 - 0x3fff...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let lemma_subtract_p5_1 f f' = let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in //assert_norm (max26 = pow2 26 - 1); assert_norm (0x3ffffff = pow2 26 - 1); assert_norm (0x3fffffb = pow2 26 - 5); assert (as_nat5 f' < prime); calc (==) { as_nat5 f' % prime; (==) { } (v f0' +...
val lemma_subtract_p5_1: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in (v f4 = 0x3ffffff && v f3 = 0x3ffffff && v f2 = 0x3ffffff && v f1 = 0x3ffffff && v f0 >= 0x3fffffb) /\ (v f0' = v f0 - 0x3fff...
false
null
true
let f0, f1, f2, f3, f4 = f in let f0', f1', f2', f3', f4' = f' in assert_norm (0x3ffffff = pow2 26 - 1); assert_norm (0x3fffffb = pow2 26 - 5); assert (as_nat5 f' < prime); calc ( == ) { as_nat5 f' % prime; ( == ) { () } (v f0' + v f1' * pow26 + v f2' * pow52 + v f3' * pow78 + v f4' * pow104) % prime; ( == ) { ...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.tup64_5", "Hacl.Spec.Poly1305.Field32xN.tup64_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Lib.IntTypes.uint64", "FStar.Math.Lemmas.modulo_lemma", "Hacl.Spec.Poly1305.Field32xN.as_nat5", "Hacl.Spec.Poly1305.Vec.prime", "Prims.unit", "Prims._assert", "Pr...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val lemma_subtract_p5_1: f:tup64_5{tup64_fits5 f (1, 1, 1, 1, 1)} -> f':tup64_5 -> Lemma (requires (let (f0, f1, f2, f3, f4) = f in let (f0', f1', f2', f3', f4') = f' in (v f4 = 0x3ffffff && v f3 = 0x3ffffff && v f2 = 0x3ffffff && v f1 = 0x3ffffff && v f0 >= 0x3fffffb) /\ (v f0' = v f0 - 0x3fff...
[]
Hacl.Poly1305.Field32xN.Lemmas1.lemma_subtract_p5_1
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.tup64_5 {Hacl.Spec.Poly1305.Field32xN.tup64_fits5 f (1, 1, 1, 1, 1)} -> f': Hacl.Spec.Poly1305.Field32xN.tup64_5 -> FStar.Pervasives.Lemma (requires (let _ = f in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ f0 f1 f2 f3 f4 = _ in ...
{ "end_col": 51, "end_line": 535, "start_col": 30, "start_line": 509 }
FStar.Pervasives.Lemma
val carry26_wide_fits_lemma: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 ((m + 1) * max26))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry26_wide_fits_lemma #w #m l cin = match w with | 1 -> carry26_wide_lemma_i #w #m l cin 0 | 2 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1 | 4 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1; carry26_wide_lemma_i #w #m l cin 2...
val carry26_wide_fits_lemma: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 ((m + 1) * max26)) let carry26_wide_fits_lemma #w #m l cin =
false
null
true
match w with | 1 -> carry26_wide_lemma_i #w #m l cin 0 | 2 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1 | 4 -> carry26_wide_lemma_i #w #m l cin 0; carry26_wide_lemma_i #w #m l cin 1; carry26_wide_lemma_i #w #m l cin 2; carry26_wide_lemma_i #w #m l cin 3
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.scale64", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Hacl.Spec.Poly1305.Field32xN.felem_wide_fits1", "Hacl.Spec.Poly1305.Field32xN.uint64xN_fits", "FStar.Mul.op_Star", "Hacl.Spec.Poly1305.Field32xN.max26", "Hacl.Poly1305.Field32xN.Lemm...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry26_wide_fits_lemma: #w:lanes -> #m:scale64 -> l:uint64xN w{felem_wide_fits1 l m} -> cin:uint64xN w{uint64xN_fits cin (4096 * max26)} -> Lemma (let (l0, l1) = carry26 #w l cin in felem_fits1 l0 1 /\ uint64xN_fits l1 ((m + 1) * max26))
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry26_wide_fits_lemma
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
l: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.felem_wide_fits1 l m} -> cin: Hacl.Spec.Poly1305.Field32xN.uint64xN w {Hacl.Spec.Poly1305.Field32xN.uint64xN_fits cin (4096 * Hacl.Spec.Poly1305.Field32xN.max26)} -> FStar.Pervasives.Lemma (ensures (let _ = Hacl....
{ "end_col": 38, "end_line": 133, "start_col": 2, "start_line": 123 }
FStar.Pervasives.Lemma
val carry_reduce_felem5_fits_lemma_i: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (tup64_fits5 (as_tup64_i (carry_full_felem5 f) i) (1, 1, 1, 1, 1))
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_reduce_felem5_fits_lemma_i #w f i = assert_norm (max26 == pow2 26 - 1); let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in carry_reduce_felem5_fits_lemm...
val carry_reduce_felem5_fits_lemma_i: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (tup64_fits5 (as_tup64_i (carry_full_felem5 f) i) (1, 1, 1, 1, 1)) let carry_reduce_felem5_fits_lemma_i #w f i =
false
null
true
assert_norm (max26 == pow2 26 - 1); let f0, f1, f2, f3, f4 = f in let tmp0, c0 = carry26 f0 (zero w) in let tmp1, c1 = carry26 f1 c0 in let tmp2, c2 = carry26 f2 c1 in let tmp3, c3 = carry26 f3 c2 in let tmp4, c4 = carry26 f4 c3 in carry_reduce_felem5_fits_lemma_i1 #w f i; FStar.Math.Lemmas.modulo_lemma ((uint64xN_v c4...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Prims._assert", "Hacl.Spec.Poly1305.Field32xN.tup64_fits5", "Hacl.Spec.Poly1305.Field32...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_reduce_felem5_fits_lemma_i: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (tup64_fits5 (as_tup64_i (carry_full_felem5 f) i) (1, 1, 1, 1, 1))
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_felem5_fits_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t f} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures Hacl.Spec.Poly1305.Field32xN.tup64_fits5 (Hacl.Spec.Poly1305.Field32xN.as_tup64_i (Hacl.Spec.Poly1305.Field32xN.carry_full_felem5 f) ...
{ "end_col": 57, "end_line": 1001, "start_col": 2, "start_line": 987 }
FStar.Pervasives.Lemma
val carry_wide_felem5_eval_lemma_i: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i:nat{i < w} -> Lemma ((feval5 (carry_wide_felem5 #w inp)).[i] == (feval5 inp).[i])
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_wide_felem5_eval_lemma_i #w inp i = let (x0, x1, x2, x3, x4) = inp in let tmp0, c0 = carry26_wide_zero x0 in let tmp1, c1 = carry26_wide x1 c0 in let tmp2, c2 = carry26_wide x2 c1 in let tmp3, c3 = carry26_wide_zero x3 in let tmp3', c6 = carry26 tmp3 c2 in let tmp4, c4 = carry26_wide x4 c3 in ...
val carry_wide_felem5_eval_lemma_i: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i:nat{i < w} -> Lemma ((feval5 (carry_wide_felem5 #w inp)).[i] == (feval5 inp).[i]) let carry_wide_felem5_eval_lemma_i #w inp i =
false
null
true
let x0, x1, x2, x3, x4 = inp in let tmp0, c0 = carry26_wide_zero x0 in let tmp1, c1 = carry26_wide x1 c0 in let tmp2, c2 = carry26_wide x2 c1 in let tmp3, c3 = carry26_wide_zero x3 in let tmp3', c6 = carry26 tmp3 c2 in let tmp4, c4 = carry26_wide x4 c3 in let tmp4' = vec_add_mod tmp4 c6 in carry_wide_felem5_fits_lemma0...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Lib.IntTypes.uint64", "Hacl.Poly1305.Field...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_wide_felem5_eval_lemma_i: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i:nat{i < w} -> Lemma ((feval5 (carry_wide_felem5 #w inp)).[i] == (feval5 inp).[i])
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_wide_felem5_eval_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w {Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures (Hacl.Spec.Poly1305.Field32xN.feval5 (Hacl.Spec.Poly1305.Field32xN.carry_wide_felem5 inp)).[ i ] =...
{ "end_col": 22, "end_line": 456, "start_col": 45, "start_line": 418 }
FStar.Pervasives.Lemma
val carry_wide_felem5_eval_lemma_i1: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i:nat{i < w} -> Lemma (let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = ca...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_wide_felem5_eval_lemma_i1 #w inp i = let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in carry26_wide_zero_eq x3; carry26_wide_fits_lemma #w #54 x3 (zero w); let t3', c...
val carry_wide_felem5_eval_lemma_i1: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i:nat{i < w} -> Lemma (let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = ca...
false
null
true
let x0, x1, x2, x3, x4 = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = carry26_wide_zero x3 in carry26_wide_zero_eq x3; carry26_wide_fits_lemma #w #54 x3 (zero w); let t3', c6 = carry26 t3 c2 in carry26_eval_lemma 79 1 t3 c2; carry26_fits_...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Lib.IntTypes.uint64", "Prims._assert", "...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_wide_felem5_eval_lemma_i1: #w:lanes -> inp:felem_wide5 w{felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i:nat{i < w} -> Lemma (let (x0, x1, x2, x3, x4) = inp in let t0, c0 = carry26_wide_zero x0 in let t1, c1 = carry26_wide x1 c0 in let t2, c2 = carry26_wide x2 c1 in let t3, c3 = ca...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_wide_felem5_eval_lemma_i1
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w {Hacl.Spec.Poly1305.Field32xN.felem_wide_fits5 inp (126, 102, 78, 54, 30)} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures (let _ = inp in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ x0 x1 x2 x3 x4 = _ in ...
{ "end_col": 118, "end_line": 408, "start_col": 46, "start_line": 363 }
FStar.Pervasives.Lemma
val carry_wide_felem5_eval_lemma_i0: inp:tup64_5 -> tmp:tup64_5 -> vc0:nat -> vc1:nat -> vc2:nat -> vc3:nat -> vc4:nat -> vc6:nat -> Lemma (requires (let (t0, t1, t2, t3, t4) = tmp in let (xi0, xi1, xi2, xi3, xi4) = inp in v xi0 == vc0 * pow2 26 + v t0 /\ v xi1 + vc0 == vc1 * pow2 26 + v t1 /...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_wide_felem5_eval_lemma_i0 inp tmp vc0 vc1 vc2 vc3 vc4 vc6 = let (t0, t1, t2, t3, t4) = tmp in let (xi0, xi1, xi2, xi3, xi4) = inp in let tmp_n = v t0 + v t1 * pow26 + v t2 * pow52 + v t3 * pow78 + v t4 * pow104 in calc (==) { as_nat5 inp % prime; (==) { } (v xi0 + v xi1 * pow26 + v xi2 * ...
val carry_wide_felem5_eval_lemma_i0: inp:tup64_5 -> tmp:tup64_5 -> vc0:nat -> vc1:nat -> vc2:nat -> vc3:nat -> vc4:nat -> vc6:nat -> Lemma (requires (let (t0, t1, t2, t3, t4) = tmp in let (xi0, xi1, xi2, xi3, xi4) = inp in v xi0 == vc0 * pow2 26 + v t0 /\ v xi1 + vc0 == vc1 * pow2 26 + v t1 /...
false
null
true
let t0, t1, t2, t3, t4 = tmp in let xi0, xi1, xi2, xi3, xi4 = inp in let tmp_n = v t0 + v t1 * pow26 + v t2 * pow52 + v t3 * pow78 + v t4 * pow104 in calc ( == ) { as_nat5 inp % prime; ( == ) { () } (v xi0 + v xi1 * pow26 + v xi2 * pow52 + v xi3 * pow78 + v xi4 * pow104) % prime; ( == ) { () } (vc0 * pow2 26 ...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.tup64_5", "Prims.nat", "Lib.IntTypes.uint64", "Prims._assert", "Prims.eq2", "Prims.int", "Prims.op_Modulus", "Hacl.Spec.Poly1305.Field32xN.as_nat5", "Hacl.Spec.Poly1305.Vec.prime", "Prims.op_Addition", "FStar.Mul.op_Star", "Prims.unit", "FStar.Calc.calc_finish",...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_wide_felem5_eval_lemma_i0: inp:tup64_5 -> tmp:tup64_5 -> vc0:nat -> vc1:nat -> vc2:nat -> vc3:nat -> vc4:nat -> vc6:nat -> Lemma (requires (let (t0, t1, t2, t3, t4) = tmp in let (xi0, xi1, xi2, xi3, xi4) = inp in v xi0 == vc0 * pow2 26 + v t0 /\ v xi1 + vc0 == vc1 * pow2 26 + v t1 /...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_wide_felem5_eval_lemma_i0
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.tup64_5 -> tmp: Hacl.Spec.Poly1305.Field32xN.tup64_5 -> vc0: Prims.nat -> vc1: Prims.nat -> vc2: Prims.nat -> vc3: Prims.nat -> vc4: Prims.nat -> vc6: Prims.nat -> FStar.Pervasives.Lemma (requires (let _ = tmp in (let FStar.Per...
{ "end_col": 59, "end_line": 343, "start_col": 69, "start_line": 313 }
FStar.Pervasives.Lemma
val carry_full_felem5_eval_lemma_i0: inp:tup64_5 -> tmp:tup64_5 -> vc0:nat -> vc1:nat -> vc2:nat -> vc3:nat -> vc4:nat -> Lemma (requires (let (t0, t1, t2, t3, t4) = tmp in let (ti0, ti1, ti2, ti3, ti4) = inp in v ti0 == vc0 * pow2 26 + v t0 /\ v ti1 + vc0 == vc1 * pow2 26 + v t1 /\ v ti2...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_full_felem5_eval_lemma_i0 inp tmp vc0 vc1 vc2 vc3 vc4 = let (t0, t1, t2, t3, t4) = tmp in let (ti0, ti1, ti2, ti3, ti4) = inp in let tmp_n = v t0 + v t1 * pow26 + v t2 * pow52 + v t3 * pow78 + v t4 * pow104 in calc (==) { as_nat5 inp % prime; (==) { } (v ti0 + v ti1 * pow26 + v ti2 * pow5...
val carry_full_felem5_eval_lemma_i0: inp:tup64_5 -> tmp:tup64_5 -> vc0:nat -> vc1:nat -> vc2:nat -> vc3:nat -> vc4:nat -> Lemma (requires (let (t0, t1, t2, t3, t4) = tmp in let (ti0, ti1, ti2, ti3, ti4) = inp in v ti0 == vc0 * pow2 26 + v t0 /\ v ti1 + vc0 == vc1 * pow2 26 + v t1 /\ v ti2...
false
null
true
let t0, t1, t2, t3, t4 = tmp in let ti0, ti1, ti2, ti3, ti4 = inp in let tmp_n = v t0 + v t1 * pow26 + v t2 * pow52 + v t3 * pow78 + v t4 * pow104 in calc ( == ) { as_nat5 inp % prime; ( == ) { () } (v ti0 + v ti1 * pow26 + v ti2 * pow52 + v ti3 * pow78 + v ti4 * pow104) % prime; ( == ) { () } (vc0 * pow2 26 ...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.tup64_5", "Prims.nat", "Lib.IntTypes.uint64", "Prims._assert", "Prims.eq2", "Prims.int", "Prims.op_Modulus", "Hacl.Spec.Poly1305.Field32xN.as_nat5", "Hacl.Spec.Poly1305.Vec.prime", "Prims.op_Addition", "FStar.Mul.op_Star", "Prims.unit", "FStar.Calc.calc_finish",...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_full_felem5_eval_lemma_i0: inp:tup64_5 -> tmp:tup64_5 -> vc0:nat -> vc1:nat -> vc2:nat -> vc3:nat -> vc4:nat -> Lemma (requires (let (t0, t1, t2, t3, t4) = tmp in let (ti0, ti1, ti2, ti3, ti4) = inp in v ti0 == vc0 * pow2 26 + v t0 /\ v ti1 + vc0 == vc1 * pow2 26 + v t1 /\ v ti2...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_eval_lemma_i0
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.tup64_5 -> tmp: Hacl.Spec.Poly1305.Field32xN.tup64_5 -> vc0: Prims.nat -> vc1: Prims.nat -> vc2: Prims.nat -> vc3: Prims.nat -> vc4: Prims.nat -> FStar.Pervasives.Lemma (requires (let _ = tmp in (let FStar.Pervasives.Native.Mktuple...
{ "end_col": 59, "end_line": 772, "start_col": 65, "start_line": 742 }
FStar.Pervasives.Lemma
val carry_reduce_felem5_fits_lemma_i0: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in...
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_reduce_felem5_fits_lemma_i0 #w f i = let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in carry_reduce_lemma_i f0 (zero w) i; assert (if (uint64xN_v f0).[i] < pow2 26 then (uint64xN_v tmp0).[i] < pow2 26 else (uint64xN_v tmp0).[i] <= 46); assert (if (uint64xN_v f0).[i] < pow2 26 then...
val carry_reduce_felem5_fits_lemma_i0: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in...
false
null
true
let f0, f1, f2, f3, f4 = f in let tmp0, c0 = carry26 f0 (zero w) in carry_reduce_lemma_i f0 (zero w) i; assert (if (uint64xN_v f0).[ i ] < pow2 26 then (uint64xN_v tmp0).[ i ] < pow2 26 else (uint64xN_v tmp0).[ i ] <= 46); assert (if (uint64xN_v f0).[ i ] < pow2 26 then (uint64xN_v c0).[ i ] = 0 else (u...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Prims._assert", "Lib.Sequence.op_String_Access", "Hacl.Spec.Poly1305.Field32xN.uint64xN...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_reduce_felem5_fits_lemma_i0: #w:lanes -> f:felem5 w{acc_inv_t f} -> i:nat{i < w} -> Lemma (let (f0, f1, f2, f3, f4) = f in let tmp0,c0 = carry26 f0 (zero w) in let tmp1,c1 = carry26 f1 c0 in let tmp2,c2 = carry26 f2 c1 in let tmp3,c3 = carry26 f3 c2 in let tmp4,c4 = carry26 f4 c3 in...
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_reduce_felem5_fits_lemma_i0
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
f: Hacl.Spec.Poly1305.Field32xN.felem5 w {Hacl.Poly1305.Field32xN.Lemmas1.acc_inv_t f} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures (let _ = f in (let FStar.Pervasives.Native.Mktuple5 #_ #_ #_ #_ #_ f0 f1 f2 f3 f4 = _ in let _ = Hacl.Spec.Poly1305.Field32xN.carry26 f0...
{ "end_col": 130, "end_line": 946, "start_col": 46, "start_line": 928 }
FStar.Pervasives.Lemma
val carry_full_felem5_eval_lemma_i: #w:lanes -> inp:felem_wide5 w{felem_fits5 inp (8, 8, 8, 8, 8)} -> i:nat{i < w} -> Lemma ((feval5 (carry_full_felem5 #w inp)).[i] == (feval5 inp).[i])
[ { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Field32xN", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Calc", "short_module": null }, { "abbrev": false,...
false
let carry_full_felem5_eval_lemma_i #w inp i = let (i0, i1, i2, i3, i4) = inp in let tmp0,c0 = carry26 i0 (zero w) in let tmp1,c1 = carry26 i1 c0 in let tmp2,c2 = carry26 i2 c1 in let tmp3,c3 = carry26 i3 c2 in let tmp4,c4 = carry26 i4 c3 in let tmp = (tmp0, tmp1, tmp2, tmp3, tmp4) in let (t0, t1, t2, t...
val carry_full_felem5_eval_lemma_i: #w:lanes -> inp:felem_wide5 w{felem_fits5 inp (8, 8, 8, 8, 8)} -> i:nat{i < w} -> Lemma ((feval5 (carry_full_felem5 #w inp)).[i] == (feval5 inp).[i]) let carry_full_felem5_eval_lemma_i #w inp i =
false
null
true
let i0, i1, i2, i3, i4 = inp in let tmp0, c0 = carry26 i0 (zero w) in let tmp1, c1 = carry26 i1 c0 in let tmp2, c2 = carry26 i2 c1 in let tmp3, c3 = carry26 i3 c2 in let tmp4, c4 = carry26 i4 c3 in let tmp = (tmp0, tmp1, tmp2, tmp3, tmp4) in let t0, t1, t2, t3, t4 = as_tup64_i tmp i in let ti0, ti1, ti2, ti3, ti4 = as_...
{ "checked_file": "Hacl.Poly1305.Field32xN.Lemmas1.fst.checked", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntVector.fsti.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.fst.checked", "FStar.UInt32....
[ "lemma" ]
[ "Hacl.Spec.Poly1305.Field32xN.lanes", "Hacl.Spec.Poly1305.Field32xN.felem_wide5", "Hacl.Spec.Poly1305.Field32xN.felem_fits5", "FStar.Pervasives.Native.Mktuple5", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "Lib.IntTypes.uint64", "Prims._assert", "Prims...
[]
module Hacl.Poly1305.Field32xN.Lemmas1 open Lib.IntTypes open Lib.IntVector open Lib.Sequence open FStar.Mul open FStar.Calc open Hacl.Spec.Poly1305.Vec include Hacl.Spec.Poly1305.Field32xN #set-options "--z3rlimit 50 --using_facts_from '* -FStar.Seq' --max_fuel 0 --max_ifuel 0" val lemma_prime: unit -> Lemma (pow...
false
false
Hacl.Poly1305.Field32xN.Lemmas1.fst
{ "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_el...
null
val carry_full_felem5_eval_lemma_i: #w:lanes -> inp:felem_wide5 w{felem_fits5 inp (8, 8, 8, 8, 8)} -> i:nat{i < w} -> Lemma ((feval5 (carry_full_felem5 #w inp)).[i] == (feval5 inp).[i])
[]
Hacl.Poly1305.Field32xN.Lemmas1.carry_full_felem5_eval_lemma_i
{ "file_name": "code/poly1305/Hacl.Poly1305.Field32xN.Lemmas1.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
inp: Hacl.Spec.Poly1305.Field32xN.felem_wide5 w {Hacl.Spec.Poly1305.Field32xN.felem_fits5 inp (8, 8, 8, 8, 8)} -> i: Prims.nat{i < w} -> FStar.Pervasives.Lemma (ensures (Hacl.Spec.Poly1305.Field32xN.feval5 (Hacl.Spec.Poly1305.Field32xN.carry_full_felem5 inp)).[ i ] == (Hac...
{ "end_col": 47, "end_line": 855, "start_col": 45, "start_line": 831 }
Prims.GTot
[ { "abbrev": true, "full_module": "Hacl.Spec.P256.Montgomery", "short_module": "SM" }, { "abbrev": true, "full_module": "Spec.P256", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.P256.Bignum", "short_module": null }, { "abbrev": false, "fu...
false
let fmont_as_nat (h:mem) (a:felem) = SM.from_mont (as_nat h a)
let fmont_as_nat (h: mem) (a: felem) =
false
null
false
SM.from_mont (as_nat h a)
{ "checked_file": "Hacl.Impl.P256.Field.fsti.checked", "dependencies": [ "Spec.P256.fst.checked", "prims.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.P256.Montgomery.fsti.checked", "Hacl.Impl.P256.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", ...
[ "sometrivial" ]
[ "FStar.Monotonic.HyperStack.mem", "Hacl.Impl.P256.Bignum.felem", "Hacl.Spec.P256.Montgomery.from_mont", "Hacl.Impl.P256.Bignum.as_nat", "Spec.P256.PointOps.felem" ]
[]
module Hacl.Impl.P256.Field open FStar.Mul open FStar.HyperStack.All open FStar.HyperStack module ST = FStar.HyperStack.ST open Lib.IntTypes open Lib.Buffer open Hacl.Impl.P256.Bignum module S = Spec.P256 module SM = Hacl.Spec.P256.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0"
false
false
Hacl.Impl.P256.Field.fsti
{ "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_el...
null
val fmont_as_nat : h: FStar.Monotonic.HyperStack.mem -> a: Hacl.Impl.P256.Bignum.felem -> Prims.GTot Spec.P256.PointOps.felem
[]
Hacl.Impl.P256.Field.fmont_as_nat
{ "file_name": "code/ecdsap256/Hacl.Impl.P256.Field.fsti", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
h: FStar.Monotonic.HyperStack.mem -> a: Hacl.Impl.P256.Bignum.felem -> Prims.GTot Spec.P256.PointOps.felem
{ "end_col": 62, "end_line": 18, "start_col": 37, "start_line": 18 }
Prims.Tot
val blake2b_update_key:Impl.blake2_update_key_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_update_key : Impl.blake2_update_key_st Spec.Blake2B Core.M32 = Impl.blake2_update_key #Spec.Blake2B #Core.M32 blake2b_update_block
val blake2b_update_key:Impl.blake2_update_key_st Spec.Blake2B Core.M32 let blake2b_update_key:Impl.blake2_update_key_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_update_key #Spec.Blake2B #Core.M32 blake2b_update_block
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_update_key", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32", "Hacl.Blake2b_32.blake2b_update_block" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_update_key:Impl.blake2_update_key_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_update_key
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_update_key_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 69, "end_line": 16, "start_col": 2, "start_line": 16 }
Prims.Tot
val blake2b_malloc:Impl.blake2_malloc_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_malloc : Impl.blake2_malloc_st Spec.Blake2B Core.M32 = Impl.blake2_malloc Spec.Blake2B Core.M32
val blake2b_malloc:Impl.blake2_malloc_st Spec.Blake2B Core.M32 let blake2b_malloc:Impl.blake2_malloc_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_malloc Spec.Blake2B Core.M32
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_malloc", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_malloc:Impl.blake2_malloc_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_malloc
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_malloc_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 42, "end_line": 50, "start_col": 2, "start_line": 50 }
Prims.Tot
val blake2b_update_multi:Impl.blake2_update_multi_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_update_multi : Impl.blake2_update_multi_st Spec.Blake2B Core.M32 = Impl.blake2_update_multi #Spec.Blake2B #Core.M32 blake2b_update_block
val blake2b_update_multi:Impl.blake2_update_multi_st Spec.Blake2B Core.M32 let blake2b_update_multi:Impl.blake2_update_multi_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_update_multi #Spec.Blake2B #Core.M32 blake2b_update_block
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_update_multi", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32", "Hacl.Blake2b_32.blake2b_update_block" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_update_multi:Impl.blake2_update_multi_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_update_multi
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_update_multi_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 71, "end_line": 19, "start_col": 2, "start_line": 19 }
Prims.Tot
val blake2b_update_block:Impl.blake2_update_block_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32
val blake2b_update_block:Impl.blake2_update_block_st Spec.Blake2B Core.M32 let blake2b_update_block:Impl.blake2_update_block_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_update_block #Spec.Blake2B #Core.M32
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_update_block", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_update_block:Impl.blake2_update_block_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_update_block
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_update_block_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 50, "end_line": 10, "start_col": 2, "start_line": 10 }
Prims.Tot
val blake2b_update:Impl.blake2_update_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_update : Impl.blake2_update_st Spec.Blake2B Core.M32 = Impl.blake2_update #Spec.Blake2B #Core.M32 blake2b_update_key blake2b_update_blocks
val blake2b_update:Impl.blake2_update_st Spec.Blake2B Core.M32 let blake2b_update:Impl.blake2_update_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_update #Spec.Blake2B #Core.M32 blake2b_update_key blake2b_update_blocks
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_update", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32", "Hacl.Blake2b_32.blake2b_update_key", "Hacl.Blake2b_32.blake2b_update_blocks" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_update:Impl.blake2_update_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_update
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_update_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 85, "end_line": 31, "start_col": 2, "start_line": 31 }
Prims.Tot
val blake2b_update_last:Impl.blake2_update_last_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_update_last : Impl.blake2_update_last_st Spec.Blake2B Core.M32 = Impl.blake2_update_last #Spec.Blake2B #Core.M32 blake2b_update_block
val blake2b_update_last:Impl.blake2_update_last_st Spec.Blake2B Core.M32 let blake2b_update_last:Impl.blake2_update_last_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_update_last #Spec.Blake2B #Core.M32 blake2b_update_block
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_update_last", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32", "Hacl.Blake2b_32.blake2b_update_block" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_update_last:Impl.blake2_update_last_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_update_last
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_update_last_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 70, "end_line": 22, "start_col": 2, "start_line": 22 }
Prims.Tot
val blake2b_finish:Impl.blake2_finish_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_finish : Impl.blake2_finish_st Spec.Blake2B Core.M32 = Impl.blake2_finish #Spec.Blake2B #Core.M32
val blake2b_finish:Impl.blake2_finish_st Spec.Blake2B Core.M32 let blake2b_finish:Impl.blake2_finish_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_finish #Spec.Blake2B #Core.M32
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_finish", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_finish:Impl.blake2_finish_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_finish
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_finish_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 44, "end_line": 34, "start_col": 2, "start_line": 34 }
Prims.Tot
val blake2b_update_blocks:Impl.blake2_update_blocks_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_update_blocks : Impl.blake2_update_blocks_st Spec.Blake2B Core.M32 = Impl.blake2_update_blocks #Spec.Blake2B #Core.M32 blake2b_update_multi blake2b_update_last
val blake2b_update_blocks:Impl.blake2_update_blocks_st Spec.Blake2B Core.M32 let blake2b_update_blocks:Impl.blake2_update_blocks_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_update_blocks #Spec.Blake2B #Core.M32 blake2b_update_multi blake2b_update_last
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_update_blocks", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32", "Hacl.Blake2b_32.blake2b_update_multi", "Hacl.Blake2b_32.blake2b_update_last" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_update_blocks:Impl.blake2_update_blocks_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_update_blocks
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_update_blocks_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 92, "end_line": 26, "start_col": 2, "start_line": 26 }
Prims.Tot
val blake2b_init:Impl.blake2_init_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b_init : Impl.blake2_init_st Spec.Blake2B Core.M32 = Impl.blake2_init #Spec.Blake2B #Core.M32
val blake2b_init:Impl.blake2_init_st Spec.Blake2B Core.M32 let blake2b_init:Impl.blake2_init_st Spec.Blake2B Core.M32 =
false
null
false
Impl.blake2_init #Spec.Blake2B #Core.M32
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2_init", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b_init:Impl.blake2_init_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b_init
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_init_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 42, "end_line": 13, "start_col": 2, "start_line": 13 }
Prims.Tot
val blake2b:Impl.blake2_st Spec.Blake2B Core.M32
[ { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Core", "short_module": "Core" }, { "abbrev": true, "full_module": "Hacl.Impl.Blake2.Generic", "short_module": "Impl" }, { "abbrev": true, "full_module": "Spec.Blake2", "short_module": "Spec" }, { "abbrev": false, ...
false
let blake2b : Impl.blake2_st Spec.Blake2B Core.M32 = Impl.blake2 #Spec.Blake2B #Core.M32 blake2b_init blake2b_update blake2b_finish
val blake2b:Impl.blake2_st Spec.Blake2B Core.M32 let blake2b:Impl.blake2_st Spec.Blake2B Core.M32 =
true
null
false
Impl.blake2 #Spec.Blake2B #Core.M32 blake2b_init blake2b_update blake2b_finish
{ "checked_file": "Hacl.Blake2b_32.fst.checked", "dependencies": [ "Spec.Blake2.fst.checked", "prims.fst.checked", "Hacl.Impl.Blake2.Generic.fst.checked", "Hacl.Impl.Blake2.Core.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Blake2b_32.fst" ...
[ "total" ]
[ "Hacl.Impl.Blake2.Generic.blake2", "Spec.Blake2.Blake2B", "Hacl.Impl.Blake2.Core.M32", "Hacl.Blake2b_32.blake2b_init", "Hacl.Blake2b_32.blake2b_update", "Hacl.Blake2b_32.blake2b_finish" ]
[]
module Hacl.Blake2b_32 module Spec = Spec.Blake2 module Impl = Hacl.Impl.Blake2.Generic module Core = Hacl.Impl.Blake2.Core (* Some specialized components of blake2 *) private let blake2b_update_block : Impl.blake2_update_block_st Spec.Blake2B Core.M32 = Impl.blake2_update_block #Spec.Blake2B #Core.M32 let blake2b...
false
false
Hacl.Blake2b_32.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val blake2b:Impl.blake2_st Spec.Blake2B Core.M32
[]
Hacl.Blake2b_32.blake2b
{ "file_name": "code/blake2/Hacl.Blake2b_32.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
Hacl.Impl.Blake2.Generic.blake2_st Spec.Blake2.Blake2B Hacl.Impl.Blake2.Core.M32
{ "end_col": 80, "end_line": 47, "start_col": 2, "start_line": 47 }
Prims.Tot
val raise_frame_preserving_upd (#a: _) (#p: pcm a) (#x #y: a) (f: frame_preserving_upd p x y) : frame_preserving_upd (raise p) (raise_val x) (raise_val y)
[ { "abbrev": false, "full_module": "FStar.Classical.Sugar", "short_module": null }, { "abbrev": false, "full_module": "FStar.Universe", "short_module": null }, { "abbrev": false, "full_module": "FStar.PCM", "short_module": null }, { "abbrev": false, "full_modul...
false
let raise_frame_preserving_upd #a (#p:pcm a) (#x #y:a) (f:frame_preserving_upd p x y) : frame_preserving_upd (raise p) (raise_val x) (raise_val y) = fun v -> let u = f (downgrade_val v) in let v_new = raise_val u in assert (forall frame. composable p y frame ==> composable (raise p) (raise_val y) ...
val raise_frame_preserving_upd (#a: _) (#p: pcm a) (#x #y: a) (f: frame_preserving_upd p x y) : frame_preserving_upd (raise p) (raise_val x) (raise_val y) let raise_frame_preserving_upd #a (#p: pcm a) (#x: a) (#y: a) (f: frame_preserving_upd p x y) : frame_preserving_upd (raise p) (raise_val x) (raise_val y) =
false
null
false
fun v -> let u = f (downgrade_val v) in let v_new = raise_val u in assert (forall frame. composable p y frame ==> composable (raise p) (raise_val y) (raise_val frame)); assert (forall frame. composable (raise p) (raise_val x) frame ==> composable p x (downgrade_val frame)); v_new
{ "checked_file": "FStar.Universe.PCM.fst.checked", "dependencies": [ "prims.fst.checked", "FStar.Universe.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.PCM.fst.checked", "FStar.Classical.Sugar.fsti.checked" ], "interface_file": false, "source_file": "FStar.Universe.PCM.fst" }
[ "total" ]
[ "FStar.PCM.pcm", "FStar.PCM.frame_preserving_upd", "FStar.Universe.raise_t", "Prims.l_and", "FStar.PCM.__proj__Mkpcm__item__refine", "FStar.Universe.PCM.raise", "FStar.PCM.compatible", "FStar.Universe.raise_val", "Prims.unit", "Prims._assert", "Prims.l_Forall", "Prims.l_imp", "FStar.PCM.comp...
[]
(* Copyright 2021 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...
false
false
FStar.Universe.PCM.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val raise_frame_preserving_upd (#a: _) (#p: pcm a) (#x #y: a) (f: frame_preserving_upd p x y) : frame_preserving_upd (raise p) (raise_val x) (raise_val y)
[]
FStar.Universe.PCM.raise_frame_preserving_upd
{ "file_name": "ulib/experimental/FStar.Universe.PCM.fst", "git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
f: FStar.PCM.frame_preserving_upd p x y -> FStar.PCM.frame_preserving_upd (FStar.Universe.PCM.raise p) (FStar.Universe.raise_val x) (FStar.Universe.raise_val y)
{ "end_col": 11, "end_line": 46, "start_col": 4, "start_line": 41 }
Prims.Tot
val raise (#a: Type) (p: pcm a) : pcm (raise_t u#a u#b a)
[ { "abbrev": false, "full_module": "FStar.Classical.Sugar", "short_module": null }, { "abbrev": false, "full_module": "FStar.Universe", "short_module": null }, { "abbrev": false, "full_module": "FStar.PCM", "short_module": null }, { "abbrev": false, "full_modul...
false
let raise (#a:Type) (p:pcm a) : pcm (raise_t u#a u#b a) = { p = { composable = (fun x y -> p.p.composable (downgrade_val x) (downgrade_val y)); op = (fun x y -> raise_val (p.p.op (downgrade_val x) (downgrade_val y))); one = raise_val p.p.one; }; comm = (f...
val raise (#a: Type) (p: pcm a) : pcm (raise_t u#a u#b a) let raise (#a: Type) (p: pcm a) : pcm (raise_t u#a u#b a) =
false
null
false
{ p = { composable = (fun x y -> p.p.composable (downgrade_val x) (downgrade_val y)); op = (fun x y -> raise_val (p.p.op (downgrade_val x) (downgrade_val y))); one = raise_val p.p.one }; comm = (fun x y -> p.comm (downgrade_val x) (downgrade_val y)); assoc = (fun x y z -> p.assoc (downgrade_val ...
{ "checked_file": "FStar.Universe.PCM.fst.checked", "dependencies": [ "prims.fst.checked", "FStar.Universe.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.PCM.fst.checked", "FStar.Classical.Sugar.fsti.checked" ], "interface_file": false, "source_file": "FStar.Universe.PCM.fst" }
[ "total" ]
[ "FStar.PCM.pcm", "FStar.PCM.Mkpcm", "FStar.Universe.raise_t", "FStar.PCM.Mkpcm'", "FStar.PCM.__proj__Mkpcm'__item__composable", "FStar.PCM.__proj__Mkpcm__item__p", "FStar.Universe.downgrade_val", "Prims.prop", "FStar.Universe.raise_val", "FStar.PCM.__proj__Mkpcm'__item__op", "FStar.PCM.__proj__M...
[]
(* Copyright 2021 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...
false
false
FStar.Universe.PCM.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val raise (#a: Type) (p: pcm a) : pcm (raise_t u#a u#b a)
[]
FStar.Universe.PCM.raise
{ "file_name": "ulib/experimental/FStar.Universe.PCM.fst", "git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
p: FStar.PCM.pcm a -> FStar.PCM.pcm (FStar.Universe.raise_t a)
{ "end_col": 53, "end_line": 36, "start_col": 6, "start_line": 27 }
Prims.Tot
val shift_gf128_key_1 (h: poly) : poly
[ { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_mod...
false
let shift_gf128_key_1 (h:poly) : poly = shift_key_1 128 gf128_modulus_low_terms h
val shift_gf128_key_1 (h: poly) : poly let shift_gf128_key_1 (h: poly) : poly =
false
null
false
shift_key_1 128 gf128_modulus_low_terms h
{ "checked_file": "Vale.AES.OptPublic.fst.checked", "dependencies": [ "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.AES.GF...
[ "total" ]
[ "Vale.Math.Poly2_s.poly", "Vale.AES.GF128.shift_key_1", "Vale.AES.GF128_s.gf128_modulus_low_terms" ]
[]
module Vale.AES.OptPublic open FStar.Mul open FStar.Seq open Vale.Def.Types_s open Vale.Math.Poly2_s open Vale.Math.Poly2.Bits_s open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.Def.Words_s
false
true
Vale.AES.OptPublic.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val shift_gf128_key_1 (h: poly) : poly
[]
Vale.AES.OptPublic.shift_gf128_key_1
{ "file_name": "vale/code/crypto/aes/Vale.AES.OptPublic.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
h: Vale.Math.Poly2_s.poly -> Vale.Math.Poly2_s.poly
{ "end_col": 43, "end_line": 13, "start_col": 2, "start_line": 13 }
Prims.Tot
val gf128_power (h: poly) (n: nat) : poly
[ { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_mod...
false
let gf128_power (h:poly) (n:nat) : poly = shift_gf128_key_1 (g_power h n)
val gf128_power (h: poly) (n: nat) : poly let gf128_power (h: poly) (n: nat) : poly =
false
null
false
shift_gf128_key_1 (g_power h n)
{ "checked_file": "Vale.AES.OptPublic.fst.checked", "dependencies": [ "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.AES.GF...
[ "total" ]
[ "Vale.Math.Poly2_s.poly", "Prims.nat", "Vale.AES.OptPublic.shift_gf128_key_1", "Vale.AES.OptPublic.g_power" ]
[]
module Vale.AES.OptPublic open FStar.Mul open FStar.Seq open Vale.Def.Types_s open Vale.Math.Poly2_s open Vale.Math.Poly2.Bits_s open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.Def.Words_s let shift_gf128_key_1 (h:poly) : poly = shift_key_1 128 gf128_modulus_low_terms h let rec g_power (a:poly) (n:nat) : poly ...
false
true
Vale.AES.OptPublic.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val gf128_power (h: poly) (n: nat) : poly
[]
Vale.AES.OptPublic.gf128_power
{ "file_name": "vale/code/crypto/aes/Vale.AES.OptPublic.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
h: Vale.Math.Poly2_s.poly -> n: Prims.nat -> Vale.Math.Poly2_s.poly
{ "end_col": 73, "end_line": 20, "start_col": 42, "start_line": 20 }
FStar.Pervasives.Lemma
val lemma_of_quad32_inj (q q': quad32) : Lemma (requires of_quad32 q == of_quad32 q') (ensures q == q')
[ { "abbrev": false, "full_module": "FStar.UInt", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits", "short_module": null }, { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_modul...
false
let lemma_of_quad32_inj (q q':quad32) : Lemma (requires of_quad32 q == of_quad32 q') (ensures q == q') = lemma_to_of_quad32 q; lemma_to_of_quad32 q'
val lemma_of_quad32_inj (q q': quad32) : Lemma (requires of_quad32 q == of_quad32 q') (ensures q == q') let lemma_of_quad32_inj (q q': quad32) : Lemma (requires of_quad32 q == of_quad32 q') (ensures q == q') =
false
null
true
lemma_to_of_quad32 q; lemma_to_of_quad32 q'
{ "checked_file": "Vale.AES.OptPublic.fst.checked", "dependencies": [ "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.AES.GF...
[ "lemma" ]
[ "Vale.Def.Types_s.quad32", "Vale.Math.Poly2.Bits.lemma_to_of_quad32", "Prims.unit", "Prims.eq2", "Vale.Math.Poly2_s.poly", "Vale.Math.Poly2.Bits_s.of_quad32", "Prims.squash", "Prims.Nil", "FStar.Pervasives.pattern" ]
[]
module Vale.AES.OptPublic open FStar.Mul open FStar.Seq open Vale.Def.Types_s open Vale.Math.Poly2_s open Vale.Math.Poly2.Bits_s open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.Def.Words_s let shift_gf128_key_1 (h:poly) : poly = shift_key_1 128 gf128_modulus_low_terms h let rec g_power (a:poly) (n:nat) : poly ...
false
false
Vale.AES.OptPublic.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "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_el...
null
val lemma_of_quad32_inj (q q': quad32) : Lemma (requires of_quad32 q == of_quad32 q') (ensures q == q')
[]
Vale.AES.OptPublic.lemma_of_quad32_inj
{ "file_name": "vale/code/crypto/aes/Vale.AES.OptPublic.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
q: Vale.Def.Types_s.quad32 -> q': Vale.Def.Types_s.quad32 -> FStar.Pervasives.Lemma (requires Vale.Math.Poly2.Bits_s.of_quad32 q == Vale.Math.Poly2.Bits_s.of_quad32 q') (ensures q == q')
{ "end_col": 47, "end_line": 75, "start_col": 4, "start_line": 75 }
Prims.Tot
val g_power (a: poly) (n: nat) : poly
[ { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_mod...
false
let rec g_power (a:poly) (n:nat) : poly = if n = 0 then zero else // arbitrary value for n = 0 if n = 1 then a else a *~ g_power a (n - 1)
val g_power (a: poly) (n: nat) : poly let rec g_power (a: poly) (n: nat) : poly =
false
null
false
if n = 0 then zero else if n = 1 then a else a *~ g_power a (n - 1)
{ "checked_file": "Vale.AES.OptPublic.fst.checked", "dependencies": [ "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.AES.GF...
[ "total" ]
[ "Vale.Math.Poly2_s.poly", "Prims.nat", "Prims.op_Equality", "Prims.int", "Vale.Math.Poly2_s.zero", "Prims.bool", "Vale.AES.GF128.op_Star_Tilde", "Vale.AES.OptPublic.g_power", "Prims.op_Subtraction" ]
[]
module Vale.AES.OptPublic open FStar.Mul open FStar.Seq open Vale.Def.Types_s open Vale.Math.Poly2_s open Vale.Math.Poly2.Bits_s open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.Def.Words_s let shift_gf128_key_1 (h:poly) : poly = shift_key_1 128 gf128_modulus_low_terms h
false
true
Vale.AES.OptPublic.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val g_power (a: poly) (n: nat) : poly
[ "recursion" ]
Vale.AES.OptPublic.g_power
{ "file_name": "vale/code/crypto/aes/Vale.AES.OptPublic.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
a: Vale.Math.Poly2_s.poly -> n: Prims.nat -> Vale.Math.Poly2_s.poly
{ "end_col": 24, "end_line": 18, "start_col": 2, "start_line": 16 }
Prims.Tot
val hkeys_reqs_pub (hkeys:FStar.Seq.seq quad32) (h_BE:quad32) : Vale.Def.Prop_s.prop0
[ { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.GF128_s", "short_module": null }, { "abbrev": false, "full_mod...
false
let hkeys_reqs_pub (hkeys:seq quad32) (h_BE:quad32) : Vale.Def.Prop_s.prop0 = let h = of_quad32 (reverse_bytes_quad32 (reverse_bytes_quad32 h_BE)) in length hkeys >= 8 /\ of_quad32 (index hkeys 0) == gf128_power h 1 /\ of_quad32 (index hkeys 1) == gf128_power h 2 /\ index hkeys 2 == h_BE /\ of_quad32 (ind...
val hkeys_reqs_pub (hkeys:FStar.Seq.seq quad32) (h_BE:quad32) : Vale.Def.Prop_s.prop0 let hkeys_reqs_pub (hkeys: seq quad32) (h_BE: quad32) : Vale.Def.Prop_s.prop0 =
false
null
false
let h = of_quad32 (reverse_bytes_quad32 (reverse_bytes_quad32 h_BE)) in length hkeys >= 8 /\ of_quad32 (index hkeys 0) == gf128_power h 1 /\ of_quad32 (index hkeys 1) == gf128_power h 2 /\ index hkeys 2 == h_BE /\ of_quad32 (index hkeys 3) == gf128_power h 3 /\ of_quad32 (index hkeys 4) == gf128_power h 4 /\ index hkey...
{ "checked_file": "Vale.AES.OptPublic.fst.checked", "dependencies": [ "Vale.Math.Poly2_s.fsti.checked", "Vale.Math.Poly2.Bits_s.fsti.checked", "Vale.Math.Poly2.Bits.fsti.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Def.Prop_s.fst.checked", "Vale.AES.GF...
[ "total" ]
[ "FStar.Seq.Base.seq", "Vale.Def.Types_s.quad32", "Prims.l_and", "Prims.b2t", "Prims.op_GreaterThanOrEqual", "FStar.Seq.Base.length", "Prims.eq2", "Vale.Math.Poly2_s.poly", "Vale.Math.Poly2.Bits_s.of_quad32", "FStar.Seq.Base.index", "Vale.AES.OptPublic.gf128_power", "Vale.Def.Words_s.four", "...
[]
module Vale.AES.OptPublic open FStar.Mul open FStar.Seq open Vale.Def.Types_s open Vale.Math.Poly2_s open Vale.Math.Poly2.Bits_s open Vale.AES.GF128_s open Vale.AES.GF128 open Vale.Def.Words_s let shift_gf128_key_1 (h:poly) : poly = shift_key_1 128 gf128_modulus_low_terms h let rec g_power (a:poly) (n:nat) : poly ...
false
true
Vale.AES.OptPublic.fst
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_el...
null
val hkeys_reqs_pub (hkeys:FStar.Seq.seq quad32) (h_BE:quad32) : Vale.Def.Prop_s.prop0
[]
Vale.AES.OptPublic.hkeys_reqs_pub
{ "file_name": "vale/code/crypto/aes/Vale.AES.OptPublic.fst", "git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e", "git_url": "https://github.com/hacl-star/hacl-star.git", "project_name": "hacl-star" }
hkeys: FStar.Seq.Base.seq Vale.Def.Types_s.quad32 -> h_BE: Vale.Def.Types_s.quad32 -> Vale.Def.Prop_s.prop0
{ "end_col": 46, "end_line": 33, "start_col": 3, "start_line": 23 }