Datasets:
microsoft
/
FStarDataSet-V2

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1 class
FStar.PartialMap.fst
FStar.PartialMap.remove
val remove (#k:eqtype) (#v:Type) (m:t k v) (x:k) : t k v
val remove (#k:eqtype) (#v:Type) (m:t k v) (x:k) : t k v
let remove m x = on_dom _ (fun x1 -> if x1 = x then None else m x1)
{ "file_name": "ulib/FStar.PartialMap.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
{ "end_col": 67, "end_line": 29, "start_col": 0, "start_line": 29 }
(* Copyright 2008-2021 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 in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. Author: Aseem Rastogi *) module FStar.PartialMap open FStar.FunctionalExtensionality type t k v = k ^-> option v let empty _ _ = on_dom _ (fun _ -> None) let literal f = on_dom _ (fun x -> f x) let sel m x = m x
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": true, "source_file": "FStar.PartialMap.fst" }
[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
m: FStar.PartialMap.t k v -> x: k -> FStar.PartialMap.t k v
Prims.Tot
[ "total" ]
[]
[ "Prims.eqtype", "FStar.PartialMap.t", "FStar.FunctionalExtensionality.on_dom", "FStar.Pervasives.Native.option", "Prims.op_Equality", "FStar.Pervasives.Native.None", "Prims.bool" ]
[]
false
false
false
false
false
let remove m x =
on_dom _ (fun x1 -> if x1 = x then None else m x1)
false
FStar.PartialMap.fst
FStar.PartialMap.upd
val upd (#k:eqtype) (#v:Type) (m:t k v) (x:k) (y:v) : t k v
val upd (#k:eqtype) (#v:Type) (m:t k v) (x:k) (y:v) : t k v
let upd m x y = on_dom _ (fun x1 -> if x1 = x then Some y else m x1)
{ "file_name": "ulib/FStar.PartialMap.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
{ "end_col": 68, "end_line": 28, "start_col": 0, "start_line": 28 }
(* Copyright 2008-2021 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 in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. Author: Aseem Rastogi *) module FStar.PartialMap open FStar.FunctionalExtensionality type t k v = k ^-> option v let empty _ _ = on_dom _ (fun _ -> None) let literal f = on_dom _ (fun x -> f x)
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": true, "source_file": "FStar.PartialMap.fst" }
[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
m: FStar.PartialMap.t k v -> x: k -> y: v -> FStar.PartialMap.t k v
Prims.Tot
[ "total" ]
[]
[ "Prims.eqtype", "FStar.PartialMap.t", "FStar.FunctionalExtensionality.on_dom", "FStar.Pervasives.Native.option", "Prims.op_Equality", "FStar.Pervasives.Native.Some", "Prims.bool" ]
[]
false
false
false
false
false
let upd m x y =
on_dom _ (fun x1 -> if x1 = x then Some y else m x1)
false
FStar.List.fst
FStar.List.filter_map
val filter_map (f: ('a -> ML (option 'b))) (l: list 'a) : ML (list 'b)
val filter_map (f: ('a -> ML (option 'b))) (l: list 'a) : ML (list 'b)
let filter_map (f:'a -> ML (option 'b)) (l:list 'a) : ML (list 'b) = let rec filter_map_acc (acc:list 'b) (l:list 'a) : ML (list 'b) = match l with | [] -> rev acc | hd :: tl -> match f hd with | Some hd -> filter_map_acc (hd :: acc) tl | None -> filter_map_acc acc tl in filter_map_acc [] l
{ "file_name": "ulib/FStar.List.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
{ "end_col": 21, "end_line": 349, "start_col": 0, "start_line": 337 }
(* Copyright 2008-2014 Nikhil Swamy and Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. *) (** F* standard library List module. @summary F* stdlib List module. *) module FStar.List open FStar.All include FStar.List.Tot (** Base operations **) (** [hd l] returns the first element of [l]. Raises an exception if [l] is empty (thus, [hd] hides [List.Tot.hd] which requires [l] to be nonempty at type-checking time.) Named as in: OCaml, F#, Coq *) val hd: list 'a -> ML 'a let hd = function | hd::tl -> hd | _ -> failwith "head of empty list" (** [tail l] returns [l] without its first element. Raises an exception if [l] is empty (thus, [tail] hides [List.Tot.tail] which requires [l] to be nonempty at type-checking time). Similar to: tl in OCaml, F#, Coq *) val tail: list 'a -> ML (list 'a) let tail = function | hd::tl -> tl | _ -> failwith "tail of empty list" (** [tl l] returns [l] without its first element. Raises an exception if [l] is empty (thus, [tl] hides [List.Tot.tl] which requires [l] to be nonempty at type-checking time). Named as in: tl in OCaml, F#, Coq *) val tl : list 'a -> ML (list 'a) let tl l = tail l (** [last l] returns the last element of [l]. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell *) val last: list 'a -> ML 'a let rec last = function | [hd] -> hd | _::tl -> last tl | _ -> failwith "last of empty list" (** [init l] returns [l] without its last element. Requires, at type-checking time, that [l] be nonempty. Named as in: Haskell *) val init: list 'a -> ML (list 'a) let rec init = function | [_] -> [] | hd::tl -> hd::(init tl) | _ -> failwith "init of empty list" (** [nth l n] returns the [n]-th element in list [l] (with the first element being the 0-th) if [l] is long enough, or raises an exception otherwise (thus, [nth] hides [List.Tot.nth] which has [option] type.) Named as in: OCaml, F#, Coq *) val nth: list 'a -> int -> ML 'a let rec nth l n = if n < 0 then failwith "nth takes a non-negative integer as input" else if n = 0 then match l with | [] -> failwith "not enough elements" | hd::_ -> hd else match l with | [] -> failwith "not enough elements" | _::tl -> nth tl (n - 1) (** Iterators **) (** [iter f l] performs [f x] for each element [x] of [l], in the order in which they appear in [l]. Named as in: OCaml, F# . *) val iter: ('a -> ML unit) -> list 'a -> ML unit let rec iter f x = match x with | [] -> () | a::tl -> let _ = f a in iter f tl (** [iteri_aux n f l] performs, for each i, [f (i+n) x] for the i-th element [x] of [l], in the order in which they appear in [l]. *) val iteri_aux: int -> (int -> 'a -> ML unit) -> list 'a -> ML unit let rec iteri_aux i f x = match x with | [] -> () | a::tl -> f i a; iteri_aux (i+1) f tl (** [iteri_aux f l] performs, for each [i], [f i x] for the i-th element [x] of [l], in the order in which they appear in [l]. Named as in: OCaml *) val iteri: (int -> 'a -> ML unit) -> list 'a -> ML unit let iteri f x = iteri_aux 0 f x (** [map f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. (Hides [List.Tot.map] which requires, at type-checking time, [f] to be a pure total function.) Named as in: OCaml, Coq, F# *) val map: ('a -> ML 'b) -> list 'a -> ML (list 'b) let rec map f x = match x with | [] -> [] | a::tl -> f a::map f tl (** [mapT f l] applies [f] to each element of [l] and returns the list of results, in the order of the original elements in [l]. Requires, at type-checking time, [f] to be a pure total function. *) val mapT: ('a -> Tot 'b) -> list 'a -> Tot (list 'b) let mapT = FStar.List.Tot.map (** [mapi_init f n l] applies, for each [k], [f (n+k)] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. (Hides [List.Tot.mapi_init] which requires, at type-checking time, [f] to be a pure total function.) *) val mapi_init: (int -> 'a -> ML 'b) -> list 'a -> int -> ML (list 'b) let rec mapi_init f l i = match l with | [] -> [] | hd::tl -> (f i hd)::(mapi_init f tl (i+1)) (** [mapi f l] applies, for each [k], [f k] to the [k]-th element of [l] and returns the list of results, in the order of the original elements in [l]. (Hides [List.Tot.mapi] which requires, at type-checking time, [f] to be a pure total function.) Named as in: OCaml *) val mapi: (int -> 'a -> ML 'b) -> list 'a -> ML (list 'b) let mapi f l = mapi_init f l 0 (** [concatMap f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. This is equivalent to [flatten (map f l)]. (Hides [List.Tot.concatMap], which requires, at type-checking time, [f] to be a pure total function.) *) val concatMap: ('a -> ML (list 'b)) -> list 'a -> ML (list 'b) let rec concatMap f = function | [] -> [] | a::tl -> let fa = f a in let ftl = concatMap f tl in fa @ ftl (** [map2 f l1 l2] computes [f x1 x2] for each element x1 of [l1] and the element [x2] of [l2] at the same position, and returns the list of such results, in the order of the original elements in [l1]. Raises an exception if [l1] and [l2] have different lengths. Named as in: OCaml *) val map2: ('a -> 'b -> ML 'c) -> list 'a -> list 'b -> ML (list 'c) let rec map2 f l1 l2 = match l1, l2 with | [], [] -> [] | hd1::tl1, hd2::tl2 -> (f hd1 hd2)::(map2 f tl1 tl2) | _, _ -> failwith "The lists do not have the same length" (** [map3 f l1 l2 l3] computes [f x1 x2 x3] for each element x1 of [l1] and the element [x2] of [l2] and the element [x3] of [l3] at the same position, and returns the list of such results, in the order of the original elements in [l1]. Raises an exception if [l1], [l2] and [l3] have different lengths. Named as in: OCaml *) val map3: ('a -> 'b -> 'c -> ML 'd) -> list 'a -> list 'b -> list 'c -> ML (list 'd) let rec map3 f l1 l2 l3 = match l1, l2, l3 with | [], [], [] -> [] | hd1::tl1, hd2::tl2, hd3::tl3 -> (f hd1 hd2 hd3)::(map3 f tl1 tl2 tl3) | _, _, _ -> failwith "The lists do not have the same length" (** [fold_left f x [y1; y2; ...; yn]] computes (f (... (f x y1) y2) ... yn). (Hides [List.Tot.fold_left], which requires, at type-checking time, [f] to be a pure total function.) Named as in: OCaml, Coq *) val fold_left: ('a -> 'b -> ML 'a) -> 'a -> list 'b -> ML 'a let rec fold_left f x y = match y with | [] -> x | hd::tl -> fold_left f (f x hd) tl (** [fold_left2 f x [y1; y2; ...; yn] [z1; z2; ...; zn]] computes (f (... (f x y1 z1) y2 z2 ... yn zn). Raises an exception if [y1; y2; ...] and [z1; z2; ...] have different lengths. (Thus, hides [List.Tot.fold_left2] which requires such a condition at type-checking time.) Named as in: OCaml *) val fold_left2: ('s -> 'a -> 'b -> ML 's) -> 's -> list 'a -> list 'b -> ML 's let rec fold_left2 f a l1 l2 = match l1, l2 with | [], [] -> a | hd1::tl1, hd2::tl2 -> fold_left2 f (f a hd1 hd2) tl1 tl2 | _, _ -> failwith "The lists do not have the same length" (** [fold_right f [x1; x2; ...; xn] y] computes (f x1 (f x2 (... (f xn y)) ... )). (Hides [List.Tot.fold_right], which requires, at type-checking time, [f] to be a pure total function.) Named as in: OCaml, Coq *) val fold_right: ('a -> 'b -> ML 'b) -> list 'a -> 'b -> ML 'b let rec fold_right f l x = match l with | [] -> x | hd::tl -> f hd (fold_right f tl x) (** List searching **) (** [filter f l] returns [l] with all elements [x] such that [f x] does not hold removed. (Hides [List.Tot.filter] which requires, at type-checking time, [f] to be a pure total function.) Named as in: OCaml, Coq *) val filter: ('a -> ML bool) -> list 'a -> ML (list 'a) let rec filter f = function | [] -> [] | hd::tl -> if f hd then hd::(filter f tl) else filter f tl (** [for_all f l] returns [true] if, and only if, for all elements [x] appearing in [l], [f x] holds. (Hides [List.Tot.for_all], which requires, at type-checking time, [f] to be a pure total function.) Named as in: OCaml. Similar to: List.forallb in Coq *) val for_all: ('a -> ML bool) -> list 'a -> ML bool let rec for_all f l = match l with | [] -> true | hd::tl -> if f hd then for_all f tl else false (** [for_all f l1 l2] returns [true] if, and only if, for all elements [x1] appearing in [l1] and the element [x2] appearing in [l2] at the same position, [f x1 x2] holds. Raises an exception if [l1] and [l2] have different lengths. Similar to: List.for_all2 in OCaml. Similar to: List.Forall2 in Coq (which is propositional) *) val forall2: ('a -> 'b -> ML bool) -> list 'a -> list 'b -> ML bool let rec forall2 f l1 l2 = match l1,l2 with | [], [] -> true | hd1::tl1, hd2::tl2 -> if f hd1 hd2 then forall2 f tl1 tl2 else false | _, _ -> failwith "The lists do not have the same length" (** [collect f l] applies [f] to each element of [l] and returns the concatenation of the results, in the order of the original elements of [l]. It is equivalent to [flatten (map f l)]. (Hides [List.Tot.collect] which requires, at type-checking time, [f] to be a pure total function.) TODO: what is the difference with [concatMap]? *) val collect: ('a -> ML (list 'b)) -> list 'a -> ML (list 'b) let rec collect f l = match l with | [] -> [] | hd::tl -> append (f hd) (collect f tl) (** [tryFind f l] returns [Some x] for some element [x] appearing in [l] such that [f x] holds, or [None] only if no such [x] exists. (Hides [List.Tot.tryFind], which requires, at type-checking time, [f] to be a pure total function.) *) val tryFind: ('a -> ML bool) -> list 'a -> ML (option 'a) let rec tryFind p l = match l with | [] -> None | hd::tl -> if p hd then Some hd else tryFind p tl (** [tryPick f l] returns [y] for some element [x] appearing in [l] such that [f x = Some y] for some y, or [None] only if [f x = None] for all elements [x] of [l]. (Hides [List.Tot.tryPick], which requires, at type-checking time, [f] to be a pure total function.) *) val tryPick: ('a -> ML (option 'b)) -> list 'a -> ML (option 'b) let rec tryPick f l = match l with | [] -> None | hd::tl -> match f hd with | Some x -> Some x | None -> tryPick f tl (** [choose f l] returns the list of [y] for all elements [x] appearing in [l] such that [f x = Some y] for some [y]. (Hides [List.Tot.choose] which requires, at type-checking time, [f] to be a pure total function.) *) val choose: ('a -> ML (option 'b)) -> list 'a -> ML (list 'b) let rec choose f l = match l with | [] -> [] | hd::tl -> match f hd with | Some x -> x::(choose f tl) | None -> choose f tl (** [partition f l] returns the pair of lists [(l1, l2)] where all elements [x] of [l] are in [l1] if [f x] holds, and in [l2] otherwise. Both [l1] and [l2] retain the original order of [l]. (Hides [List.Tot.partition], which requires, at type-checking time, [f] to be a pure total function.) *) val partition: ('a -> ML bool) -> list 'a -> ML (list 'a * list 'a) let rec partition f = function | [] -> [], [] | hd::tl -> let l1, l2 = partition f tl in if f hd then hd::l1, l2 else l1, hd::l2 (** List of tuples **) (** [zip] takes two lists [x1, ..., xn] and [y1, ..., yn] and returns the list of pairs [(x1, y1), ..., (xn, yn)]. Raises an exception if the two lists have different lengths. Named as in: Haskell *) val zip: list 'a -> list 'b -> ML (list ('a * 'b)) let rec zip l1 l2 = match l1,l2 with | [], [] -> [] | hd1::tl1, hd2::tl2 -> (hd1,hd2)::(zip tl1 tl2) | _, _ -> failwith "The lists do not have the same length" (** Sorting (implemented as quicksort) **) (** [sortWith compare l] returns the list [l'] containing the elements of [l] sorted along the comparison function [compare], in such a way that if [compare x y > 0], then [x] appears before [y] in [l']. (Hides [List.Tot.sortWith], which requires, at type-checking time, [compare] to be a pure total function.) *) val sortWith: ('a -> 'a -> ML int) -> list 'a -> ML (list 'a) let rec sortWith f = function | [] -> [] | pivot::tl -> let hi, lo = partition (fun x -> f pivot x > 0) tl in sortWith f lo@(pivot::sortWith f hi) (** [splitAt n l] returns the pair of lists [(l1, l2)] such that [l1] contains the first [n] elements of [l] and [l2] contains the rest. Raises an exception if [l] has fewer than [n] elements. *) val splitAt: nat -> list 'a -> ML (list 'a * list 'a) let rec splitAt n l = if n = 0 then [], l else match l with | [] -> failwith "splitAt index is more that list length" | hd::tl -> let l1, l2 = splitAt (n - 1) tl in hd::l1, l2 (** [filter_map f l] returns the list of [y] for all elements [x] appearing in [l] such that [f x = Some y] for some [y]. (Implemented
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.All.fst.checked" ], "interface_file": false, "source_file": "FStar.List.fst" }
[ { "abbrev": false, "full_module": "FStar.List.Tot", "short_module": null }, { "abbrev": false, "full_module": "FStar.All", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
f: (_: 'a -> FStar.All.ML (FStar.Pervasives.Native.option 'b)) -> l: Prims.list 'a -> FStar.All.ML (Prims.list 'b)
FStar.All.ML
[ "ml" ]
[]
[ "FStar.Pervasives.Native.option", "Prims.list", "Prims.Nil", "FStar.List.Tot.Base.rev", "Prims.Cons" ]
[]
false
true
false
false
false
let filter_map (f: ('a -> ML (option 'b))) (l: list 'a) : ML (list 'b) =
let rec filter_map_acc (acc: list 'b) (l: list 'a) : ML (list 'b) = match l with | [] -> rev acc | hd :: tl -> match f hd with | Some hd -> filter_map_acc (hd :: acc) tl | None -> filter_map_acc acc tl in filter_map_acc [] l
false
Hacl.Spec.BignumQ.Lemmas.fst
Hacl.Spec.BignumQ.Lemmas.lemma_mod_264_aux
val lemma_mod_264_aux: t:qelem_wide5 -> Lemma (requires qelem_wide_fits5 t (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in (wide_as_nat5 t) % pow2 264 == (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264))
val lemma_mod_264_aux: t:qelem_wide5 -> Lemma (requires qelem_wide_fits5 t (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in (wide_as_nat5 t) % pow2 264 == (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264))
let lemma_mod_264_aux t = let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in let res = (t0, t1, t2, t3, t4 &. u64 0xffffffffff) in assert_norm (pow2 16 * pow2 264 == pow2 280); assert_norm (pow2 72 * pow2 264 == pow2 336); assert_norm (pow2 128 * pow2 264 == pow2 392); assert_norm (pow2 184 * pow2 264 == pow2 448); assert_norm (pow2 240 * pow2 264 == pow2 504); calc (==) { (wide_as_nat5 t) % pow2 264; (==) { } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224 + (v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) % pow2 264; (==) { FStar.Math.Lemmas.lemma_mod_add_distr (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) ((v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) (pow2 264)} ((v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) + ((v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) % pow2 264) % pow2 264; (==) { FStar.Math.Lemmas.cancel_mul_mod (v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) (pow2 264) } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264; }
{ "file_name": "code/ed25519/Hacl.Spec.BignumQ.Lemmas.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 3, "end_line": 500, "start_col": 0, "start_line": 479 }
module Hacl.Spec.BignumQ.Lemmas open FStar.Tactics.CanonCommSemiring open FStar.Mul open Lib.IntTypes module S = Spec.Ed25519 include Hacl.Spec.BignumQ.Definitions let feq (#a #b:Type) (f:(a -> b)) (x y:a) : Lemma (requires x == y) (ensures f x == f y) = () let eq_eq2 (#a:eqtype) (x y:a) : Lemma (requires x = y) (ensures x == y) = () val lemma_mul_lt:a:nat -> b:nat -> c:nat -> d:nat -> Lemma (requires a < b /\ c < d) (ensures a * c < b * d) let lemma_mul_lt a b c d = () val lemma_as_nat5: f:qelem5 -> Lemma (requires qelem_fits5 f (1, 1, 1, 1, 1)) (ensures as_nat5 f < pow2 280) let lemma_as_nat5 f = //let (f0, f1, f2, f3, f4) = f in //assert (as_nat5 f == v f0 + v f1 * pow56 + v f2 * pow112 + v f3 * pow168 + v f4 * pow224); assert_norm (pow2 56 * pow2 56 = pow2 112); assert_norm (pow2 56 * pow2 112 = pow2 168); assert_norm (pow2 56 * pow2 168 = pow2 224); assert_norm (pow2 56 * pow2 224 = pow2 280) val lemma_choose_step: bit:uint64{v bit <= 1} -> x:uint64 -> y:uint64 -> Lemma (let mask = bit -. u64 1 in let z = x ^. (mask &. (x ^. y)) in if v bit = 1 then z == x else z == y) let lemma_choose_step bit p1 p2 = let mask = bit -. u64 1 in assert (v bit == 0 ==> v mask == pow2 64 - 1); assert (v bit == 1 ==> v mask == 0); let dummy = mask &. (p1 ^. p2) in logand_lemma mask (p1 ^. p2); assert (v bit == 1 ==> v dummy == 0); assert (v bit == 0 ==> v dummy == v (p1 ^. p2)); let p1' = p1 ^. dummy in assert (v dummy == v (if v bit = 1 then u64 0 else (p1 ^. p2))); logxor_lemma p1 p2 val lemma_subm_conditional: x0:nat -> x1:nat -> x2:nat -> x3:nat -> x4:nat -> y0:nat -> y1:nat -> y2:nat -> y3:nat -> y4:nat -> b0:nat -> b1:nat -> b2:nat -> b3:nat -> b4:nat -> Lemma ( x0 - y0 + b0 * pow2 56 + (x1 - y1 - b0 + b1 * pow2 56) * pow2 56 + (x2 - y2 - b1 + b2 * pow2 56) * pow2 112 + (x3 - y3 - b2 + b3 * pow2 56) * pow2 168 + (x4 - y4 - b3 + b4 * pow2 56) * pow2 224 == (x0 + x1 * pow2 56 + x2 * pow2 112 + x3 * pow2 168 + x4 * pow2 224) - (y0 + y1 * pow2 56 + y2 * pow2 112 + y3 * pow2 168 + y4 * pow2 224) + b4 * pow2 280) let lemma_subm_conditional x0 x1 x2 x3 x4 y0 y1 y2 y3 y4 b0 b1 b2 b3 b4 = assert_norm (pow2 56 * pow2 56 = pow2 112); assert_norm (pow2 56 * pow2 112 = pow2 168); assert_norm (pow2 56 * pow2 168 = pow2 224); assert_norm (pow2 56 * pow2 224 = pow2 280); assert ( x0 - y0 + b0 * pow2 56 + (x1 - y1 - b0 + b1 * pow2 56) * pow2 56 + (x2 - y2 - b1 + b2 * pow2 56) * pow2 112 + (x3 - y3 - b2 + b3 * pow2 56) * pow2 168 + (x4 - y4 - b3 + b4 * pow2 56) * pow2 224 == (x0 + x1 * pow2 56 + x2 * pow2 112 + x3 * pow2 168 + x4 * pow2 224) - (y0 + y1 * pow2 56 + y2 * pow2 112 + y3 * pow2 168 + y4 * pow2 224) + b4 * pow2 280) by (int_semiring ()); () val lemma_div224: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in wide_as_nat5 x / pow2 224 == v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280)) #push-options "--z3rlimit 50" let lemma_div224 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert (wide_as_nat5 x == v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168 + v x4 * pow2 224 + v x5 * pow2 280 + v x6 * pow2 336 + v x7 * pow2 392 + v x8 * pow2 448 + v x9 * pow2 504); assert_norm (pow2 56 * pow2 224 == pow2 280); assert_norm (pow2 112 * pow2 224 == pow2 336); assert_norm (pow2 168 * pow2 224 == pow2 392); assert_norm (pow2 224 * pow2 224 == pow2 448); assert_norm (pow2 280 * pow2 224 == pow2 504); calc (==) { wide_as_nat5 x / pow2 224; (==) { } (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168 + (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) * pow2 224) / pow2 224; (==) { FStar.Math.Lemmas.lemma_div_plus (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168) (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) (pow2 224) } (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168) / pow2 224 + v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280; (==) { FStar.Math.Lemmas.small_division_lemma_1 (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168) (pow2 224) } v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280; } #pop-options val lemma_div248_aux: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 512) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in wide_as_nat5 x / pow2 248 == v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256)) open FStar.Tactics.CanonCommSemiring #push-options "--z3cliopt smt.arith.nl=false" let lemma_div248_aux x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 248 == pow2 224 * pow2 24); assert_norm (pow2 56 == pow2 32 * pow2 24); assert_norm (pow2 112 == pow2 88 * pow2 24); assert_norm (pow2 168 == pow2 144 * pow2 24); assert_norm (pow2 224 == pow2 200 * pow2 24); assert_norm (pow2 280 == pow2 256 * pow2 24); assert_norm (0 < pow2 24); calc (==) { wide_as_nat5 x / pow2 248; (==) { FStar.Math.Lemmas.division_multiplication_lemma (wide_as_nat5 x) (pow2 224) (pow2 24) } (wide_as_nat5 x / pow2 224) / pow2 24; (==) { lemma_div224 x } (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) / pow2 24; (==) { _ by (Tactics.mapply (`feq #int #int (fun x -> x / pow2 24)); int_semiring ()) } (v x4 + (v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256) * pow2 24) / pow2 24; (==) { FStar.Math.Lemmas.lemma_div_plus (v x4) (v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256) (pow2 24) } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256; } #pop-options val lemma_div248_x5: x5:uint64 -> Lemma ( pow2 32 * (v x5 % pow2 24) + v x5 / pow2 24 * pow2 56 == v x5 * pow2 32) let lemma_div248_x5 x5 = assert_norm (pow2 32 * pow2 24 = pow2 56) val lemma_div248_x6: x6:uint64 -> Lemma (pow2 32 * (v x6 % pow2 24) * pow2 56 + v x6 / pow2 24 * pow2 112 == v x6 * pow2 88) let lemma_div248_x6 x6 = calc (==) { pow2 32 * (v x6 % pow2 24) * pow2 56 + v x6 / pow2 24 * pow2 112; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x6 / pow2 24) * pow2 24 + v x6 % pow2 24) * pow2 88; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x6) (pow2 24) } v x6 * pow2 88; } val lemma_div248_x7: x7:uint64 -> Lemma (pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168 == v x7 * pow2 144) let lemma_div248_x7 x7 = calc (==) { pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x7 / pow2 24) * pow2 24 + v x7 % pow2 24) * pow2 144; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x7) (pow2 24) } v x7 * pow2 144; } val lemma_div248_x8: x8:uint64 -> Lemma (pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224 == v x8 * pow2 200) let lemma_div248_x8 x8 = calc (==) { pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x8 / pow2 24) * pow2 24 + v x8 % pow2 24) * pow2 200; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x8) (pow2 24) } v x8 * pow2 200; } val lemma_div248_x9: x9:uint64{v x9 < pow2 24} -> Lemma (pow2 32 * (v x9 % pow2 24) * pow2 224 == v x9 * pow2 256) let lemma_div248_x9 x9 = calc (==) { pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { Math.Lemmas.small_mod (v x9) (pow2 24) } pow2 32 * v x9 * pow2 224; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x9 * pow2 256; } val lemma_wide_as_nat_pow512: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 512) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in v x9 < pow2 24)) let lemma_wide_as_nat_pow512 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 504 * pow2 8 = pow2 512); FStar.Math.Lemmas.pow2_minus 512 504; assert (v x9 < pow2 8); assert_norm (pow2 8 < pow2 24) val lemma_div248: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 512) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in let z0 = v x4 / pow2 24 + pow2 32 * (v x5 % pow2 24) in let z1 = v x5 / pow2 24 + pow2 32 * (v x6 % pow2 24) in let z2 = v x6 / pow2 24 + pow2 32 * (v x7 % pow2 24) in let z3 = v x7 / pow2 24 + pow2 32 * (v x8 % pow2 24) in let z4 = v x8 / pow2 24 + pow2 32 * (v x9 % pow2 24) in wide_as_nat5 x / pow2 248 == z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224)) #push-options "--z3rlimit 50" let lemma_div248 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in lemma_wide_as_nat_pow512 x; assert (v x9 < pow2 24); calc (==) { (let z0 = v x4 / pow2 24 + pow2 32 * (v x5 % pow2 24) in let z1 = v x5 / pow2 24 + pow2 32 * (v x6 % pow2 24) in let z2 = v x6 / pow2 24 + pow2 32 * (v x7 % pow2 24) in let z3 = v x7 / pow2 24 + pow2 32 * (v x8 % pow2 24) in let z4 = v x8 / pow2 24 + pow2 32 * (v x9 % pow2 24) in z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224); (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x4 / pow2 24 + pow2 32 * (v x5 % pow2 24) + v x5 / pow2 24 * pow2 56 + pow2 32 * (v x6 % pow2 24) * pow2 56 + v x6 / pow2 24 * pow2 112 + pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168 + pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224 + pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { lemma_div248_x5 x5; lemma_div248_x6 x6 } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168 + pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224 + pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { lemma_div248_x7 x7; lemma_div248_x8 x8 } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { lemma_div248_x9 x9 } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256; (==) { lemma_div248_aux x } wide_as_nat5 x / pow2 248; } #pop-options val lemma_add_modq5: x:qelem5 -> y:qelem5 -> t:qelem5 -> Lemma (requires qelem_fits5 x (1, 1, 1, 1, 1) /\ qelem_fits5 y (1, 1, 1, 1, 1) /\ qelem_fits5 t (1, 1, 1, 1, 1) /\ as_nat5 x < S.q /\ as_nat5 y < S.q /\ as_nat5 t == as_nat5 x + as_nat5 y) (ensures (let res = if as_nat5 t >= S.q then as_nat5 t - S.q else as_nat5 t in res < S.q /\ res == (as_nat5 x + as_nat5 y) % S.q)) let lemma_add_modq5 x y t = assert (as_nat5 t == as_nat5 x + as_nat5 y); let res = if as_nat5 t >= S.q then as_nat5 t - S.q else as_nat5 t in assert (res < S.q); if as_nat5 t >= S.q then ( FStar.Math.Lemmas.sub_div_mod_1 (as_nat5 t) S.q; assert (res % S.q == as_nat5 t % S.q)) else assert (res % S.q == as_nat5 t % S.q); FStar.Math.Lemmas.small_mod res S.q val lemma_wide_as_nat_pow528: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 528) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in v x9 < pow2 40)) let lemma_wide_as_nat_pow528 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 504 * pow2 24 = pow2 528); FStar.Math.Lemmas.pow2_minus 528 504; assert (v x9 < pow2 24); assert_norm (pow2 24 < pow2 40) #push-options "--z3cliopt smt.arith.nl=false" val lemma_div264_aux: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 528) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in wide_as_nat5 x / pow2 264 == v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240)) let lemma_div264_aux x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 264 == pow2 224 * pow2 40); assert_norm (pow2 56 == pow2 16 * pow2 40); assert_norm (pow2 112 == pow2 72 * pow2 40); assert_norm (pow2 168 == pow2 128 * pow2 40); assert_norm (pow2 224 == pow2 184 * pow2 40); assert_norm (pow2 280 == pow2 240 * pow2 40); assert_norm (0 < pow2 40); calc (==) { wide_as_nat5 x / pow2 264; (==) { FStar.Math.Lemmas.division_multiplication_lemma (wide_as_nat5 x) (pow2 224) (pow2 40) } (wide_as_nat5 x / pow2 224) / pow2 40; (==) { lemma_div224 x } (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) / pow2 40; (==) { _ by (Tactics.mapply (`feq #int #int (fun x -> x / pow2 40)); int_semiring ()) } (v x4 + (v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240) * pow2 40) / pow2 40; (==) { FStar.Math.Lemmas.lemma_div_plus (v x4) (v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240) (pow2 40) } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240; } val lemma_div264_x5: x5:uint64 -> Lemma (pow2 16 * (v x5 % pow2 40) + v x5 / pow2 40 * pow2 56 == v x5 * pow2 16) let lemma_div264_x5 x5 = assert_norm (0 < pow2 24); calc (==) { pow2 16 * (v x5 % pow2 40) + v x5 / pow2 40 * pow2 56; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x5 / pow2 40) * pow2 40 + v x5 % pow2 40) * pow2 16; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x5) (pow2 40) } v x5 * pow2 16; } val lemma_div264_x6: x6:uint64 -> Lemma (pow2 16 * (v x6 % pow2 40) * pow2 56 + v x6 / pow2 40 * pow2 112 == v x6 * pow2 72) let lemma_div264_x6 x6 = calc (==) { pow2 16 * (v x6 % pow2 40) * pow2 56 + v x6 / pow2 40 * pow2 112; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } ((v x6 / pow2 40) * pow2 40 + v x6 % pow2 40) * pow2 72; (==) { Math.Lemmas.euclidean_division_definition (v x6) (pow2 40) } v x6 * pow2 72; } val lemma_div264_x7: x7:uint64 -> Lemma (pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168 == v x7 * pow2 128) let lemma_div264_x7 x7 = calc (==) { pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } ((v x7 / pow2 40) * pow2 40 + v x7 % pow2 40) * pow2 128; (==) { Math.Lemmas.euclidean_division_definition (v x7) (pow2 40) } v x7 * pow2 128; } val lemma_div264_x8: x8:uint64 -> Lemma (pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224 == v x8 * pow2 184) let lemma_div264_x8 x8 = calc (==) { pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } ((v x8 / pow2 40) * pow2 40 + v x8 % pow2 40) * pow2 184; (==) { Math.Lemmas.euclidean_division_definition (v x8) (pow2 40) } v x8 * pow2 184; } val lemma_div264_x9: x9:uint64{v x9 < pow2 40} -> Lemma (pow2 16 * (v x9 % pow2 40) * pow2 224 == v x9 * pow2 240) let lemma_div264_x9 x9 = calc (==) { pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { Math.Lemmas.small_mod (v x9) (pow2 40) } pow2 16 * v x9 * pow2 224; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x9 * pow2 240; } val lemma_div264: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 528) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in let z0 = v x4 / pow2 40 + pow2 16 * (v x5 % pow2 40) in let z1 = v x5 / pow2 40 + pow2 16 * (v x6 % pow2 40) in let z2 = v x6 / pow2 40 + pow2 16 * (v x7 % pow2 40) in let z3 = v x7 / pow2 40 + pow2 16 * (v x8 % pow2 40) in let z4 = v x8 / pow2 40 + pow2 16 * (v x9 % pow2 40) in wide_as_nat5 x / pow2 264 == z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224)) #push-options "--z3rlimit 50" let lemma_div264 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in lemma_wide_as_nat_pow528 x; assert (v x9 < pow2 40); calc (==) { (let z0 = v x4 / pow2 40 + pow2 16 * (v x5 % pow2 40) in let z1 = v x5 / pow2 40 + pow2 16 * (v x6 % pow2 40) in let z2 = v x6 / pow2 40 + pow2 16 * (v x7 % pow2 40) in let z3 = v x7 / pow2 40 + pow2 16 * (v x8 % pow2 40) in let z4 = v x8 / pow2 40 + pow2 16 * (v x9 % pow2 40) in z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224); (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x4 / pow2 40 + pow2 16 * (v x5 % pow2 40) + v x5 / pow2 40 * pow2 56 + pow2 16 * (v x6 % pow2 40) * pow2 56 + v x6 / pow2 40 * pow2 112 + pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168 + pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224 + pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { lemma_div264_x5 x5; lemma_div264_x6 x6 } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168 + pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224 + pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { lemma_div264_x7 x7; lemma_div264_x8 x8 } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { lemma_div264_x9 x9 } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240; (==) { lemma_div264_aux x } wide_as_nat5 x / pow2 264; } #pop-options #pop-options // "--z3cliopt smt.arith.nl=false" val lemma_mod_264_aux: t:qelem_wide5 -> Lemma (requires qelem_wide_fits5 t (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in (wide_as_nat5 t) % pow2 264 == (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264))
{ "checked_file": "/", "dependencies": [ "Spec.Ed25519.fst.checked", "prims.fst.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.BignumQ.Definitions.fst.checked", "FStar.UInt32.fsti.checked", "FStar.Tactics.Effect.fsti.checked", "FStar.Tactics.CanonCommSemiring.fst.checked", "FStar.Tactics.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.Calc.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Spec.BignumQ.Lemmas.fst" }
[ { "abbrev": false, "full_module": "FStar.Tactics.CanonCommSemiring", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.BignumQ.Definitions", "short_module": null }, { "abbrev": true, "full_module": "Spec.Ed25519", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Tactics.CanonCommSemiring", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.BignumQ", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.BignumQ", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 150, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
t: Hacl.Spec.BignumQ.Definitions.qelem_wide5 -> FStar.Pervasives.Lemma (requires Hacl.Spec.BignumQ.Definitions.qelem_wide_fits5 t (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let _ = t in (let FStar.Pervasives.Native.Mktuple10 #_ #_ #_ #_ #_ #_ #_ #_ #_ #_ t0 t1 t2 t3 t4 _ _ _ _ _ = _ in Hacl.Spec.BignumQ.Definitions.wide_as_nat5 t % Prims.pow2 264 == (Lib.IntTypes.v t0 + Lib.IntTypes.v t1 * Prims.pow2 56 + Lib.IntTypes.v t2 * Prims.pow2 112 + Lib.IntTypes.v t3 * Prims.pow2 168 + Lib.IntTypes.v t4 * Prims.pow2 224) % Prims.pow2 264) <: Type0))
FStar.Pervasives.Lemma
[ "lemma" ]
[]
[ "Hacl.Spec.BignumQ.Definitions.qelem_wide5", "Lib.IntTypes.uint64", "FStar.Calc.calc_finish", "Prims.int", "Prims.eq2", "Prims.op_Modulus", "Hacl.Spec.BignumQ.Definitions.wide_as_nat5", "Prims.pow2", "Prims.op_Addition", "Lib.IntTypes.v", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "FStar.Mul.op_Star", "Prims.Cons", "FStar.Preorder.relation", "Prims.Nil", "Prims.unit", "FStar.Calc.calc_step", "FStar.Calc.calc_init", "FStar.Calc.calc_pack", "Prims.squash", "FStar.Math.Lemmas.lemma_mod_add_distr", "FStar.Math.Lemmas.cancel_mul_mod", "FStar.Pervasives.assert_norm", "FStar.Pervasives.Native.tuple5", "Lib.IntTypes.int_t", "FStar.Pervasives.Native.Mktuple5", "Lib.IntTypes.op_Amp_Dot", "Lib.IntTypes.u64" ]
[]
false
false
true
false
false
let lemma_mod_264_aux t =
let t0, t1, t2, t3, t4, t5, t6, t7, t8, t9 = t in let res = (t0, t1, t2, t3, t4 &. u64 0xffffffffff) in assert_norm (pow2 16 * pow2 264 == pow2 280); assert_norm (pow2 72 * pow2 264 == pow2 336); assert_norm (pow2 128 * pow2 264 == pow2 392); assert_norm (pow2 184 * pow2 264 == pow2 448); assert_norm (pow2 240 * pow2 264 == pow2 504); calc ( == ) { (wide_as_nat5 t) % pow2 264; ( == ) { () } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224 + (v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) % pow2 264; ( == ) { FStar.Math.Lemmas.lemma_mod_add_distr (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) ((v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) (pow2 264) } ((v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) + ((v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) % pow2 264) % pow2 264; ( == ) { FStar.Math.Lemmas.cancel_mul_mod (v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) (pow2 264) } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264; }
false
FStar.PartialMap.fst
FStar.PartialMap.equal
val equal (#k:eqtype) (#v:Type) (m1 m2:t k v) : prop
val equal (#k:eqtype) (#v:Type) (m1 m2:t k v) : prop
let equal m1 m2 = feq m1 m2 /\ True
{ "file_name": "ulib/FStar.PartialMap.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
{ "end_col": 35, "end_line": 38, "start_col": 0, "start_line": 38 }
(* Copyright 2008-2021 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 in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. Author: Aseem Rastogi *) module FStar.PartialMap open FStar.FunctionalExtensionality type t k v = k ^-> option v let empty _ _ = on_dom _ (fun _ -> None) let literal f = on_dom _ (fun x -> f x) let sel m x = m x let upd m x y = on_dom _ (fun x1 -> if x1 = x then Some y else m x1) let remove m x = on_dom _ (fun x1 -> if x1 = x then None else m x1) let sel_empty _ _ = () let sel_literal _ _ = () let sel_upd _ _ _ = () let sel_upd_distinct_key _ _ _ _ = () let sel_remove _ _ = () let sel_remove_distinct_key _ _ _ = ()
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": true, "source_file": "FStar.PartialMap.fst" }
[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
m1: FStar.PartialMap.t k v -> m2: FStar.PartialMap.t k v -> Prims.prop
Prims.Tot
[ "total" ]
[]
[ "Prims.eqtype", "FStar.PartialMap.t", "Prims.l_and", "FStar.FunctionalExtensionality.feq", "FStar.Pervasives.Native.option", "Prims.l_True", "Prims.prop" ]
[]
false
false
false
false
true
let equal m1 m2 =
feq m1 m2 /\ True
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.table_inv_w5
val table_inv_w5:BE.table_inv_t U64 15ul 32ul
val table_inv_w5:BE.table_inv_t U64 15ul 32ul
let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 48, "end_line": 50, "start_col": 0, "start_line": 44 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q)
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
Hacl.Impl.Exponentiation.table_inv_t Lib.IntTypes.U64 (15ul <: FStar.UInt32.t) (32ul <: FStar.UInt32.t)
Prims.Tot
[ "total" ]
[]
[ "Hacl.Impl.Exponentiation.table_inv_precomp", "Lib.IntTypes.U64", "FStar.UInt32.t", "FStar.UInt32.__uint_to_t", "Hacl.Impl.Exponentiation.Definitions.concrete_ops", "FStar.UInt32.uint_to_t", "Hacl.Impl.K256.Group.mk_k256_concrete_ops" ]
[]
false
false
false
false
false
let table_inv_w5:BE.table_inv_t U64 15ul 32ul =
[@@ inline_let ]let len = 15ul in [@@ inline_let ]let ctx_len = 0ul in [@@ inline_let ]let k = mk_k256_concrete_ops in [@@ inline_let ]let l = 5ul in [@@ inline_let ]let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len
false
Hacl.Spec.BignumQ.Lemmas.fst
Hacl.Spec.BignumQ.Lemmas.lemma_mul_5'''
val lemma_mul_5''': x1:nat -> x2:nat -> x3:nat -> x4:nat -> x5:nat -> y1:nat -> y2:nat -> y3:nat -> y4:nat -> y5:nat -> Lemma (((x1 + pow2 56 * x2 + pow2 112 * x3 + pow2 168 * x4 + pow2 224 * x5) * (y1 + pow2 56 * y2 + pow2 112 * y3 + pow2 168 * y4 + pow2 224 * y5)) % pow2 264 == (x1 * y1 + pow2 56 * (x2 * y1 + x1 * y2) + pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5)) % pow2 264)
val lemma_mul_5''': x1:nat -> x2:nat -> x3:nat -> x4:nat -> x5:nat -> y1:nat -> y2:nat -> y3:nat -> y4:nat -> y5:nat -> Lemma (((x1 + pow2 56 * x2 + pow2 112 * x3 + pow2 168 * x4 + pow2 224 * x5) * (y1 + pow2 56 * y2 + pow2 112 * y3 + pow2 168 * y4 + pow2 224 * y5)) % pow2 264 == (x1 * y1 + pow2 56 * (x2 * y1 + x1 * y2) + pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5)) % pow2 264)
let lemma_mul_5''' x1 x2 x3 x4 x5 y1 y2 y3 y4 y5 = calc (==) { ((x1 + pow2 56 * x2 + pow2 112 * x3 + pow2 168 * x4 + pow2 224 * x5) * (y1 + pow2 56 * y2 + pow2 112 * y3 + pow2 168 * y4 + pow2 224 * y5)) % pow2 264; (==) { _ by (Tactics.mapply (`feq #int #int (fun x -> x % pow2 264)); Tactics.norm [zeta; iota; delta; primops]; int_semiring ()) } (x1 * y1 + pow2 56 * (x2 * y1 + x1 * y2) + pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5) + (pow2 16 * x2 * y5 + pow2 16 * x3 * y4 + pow2 72 * x3 * y5 + pow2 16 * x4 * y3 + pow2 72 * x4 * y4 + pow2 128 * x4 * y5 + pow2 16 * x5 * y2 + pow2 72 * x5 * y3 + pow2 128 * x5 * y4 + pow2 184 * x5 * y5) * pow2 264) % pow2 264; (==) { _ by (Tactics.mapply (`eq_eq2); Tactics.mapply (`Math.Lemmas.lemma_mod_plus)) } (x1 * y1 + pow2 56 * (x2 * y1 + x1 * y2) + pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5)) % pow2 264; }
{ "file_name": "code/ed25519/Hacl.Spec.BignumQ.Lemmas.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 3, "end_line": 698, "start_col": 0, "start_line": 675 }
module Hacl.Spec.BignumQ.Lemmas open FStar.Tactics.CanonCommSemiring open FStar.Mul open Lib.IntTypes module S = Spec.Ed25519 include Hacl.Spec.BignumQ.Definitions let feq (#a #b:Type) (f:(a -> b)) (x y:a) : Lemma (requires x == y) (ensures f x == f y) = () let eq_eq2 (#a:eqtype) (x y:a) : Lemma (requires x = y) (ensures x == y) = () val lemma_mul_lt:a:nat -> b:nat -> c:nat -> d:nat -> Lemma (requires a < b /\ c < d) (ensures a * c < b * d) let lemma_mul_lt a b c d = () val lemma_as_nat5: f:qelem5 -> Lemma (requires qelem_fits5 f (1, 1, 1, 1, 1)) (ensures as_nat5 f < pow2 280) let lemma_as_nat5 f = //let (f0, f1, f2, f3, f4) = f in //assert (as_nat5 f == v f0 + v f1 * pow56 + v f2 * pow112 + v f3 * pow168 + v f4 * pow224); assert_norm (pow2 56 * pow2 56 = pow2 112); assert_norm (pow2 56 * pow2 112 = pow2 168); assert_norm (pow2 56 * pow2 168 = pow2 224); assert_norm (pow2 56 * pow2 224 = pow2 280) val lemma_choose_step: bit:uint64{v bit <= 1} -> x:uint64 -> y:uint64 -> Lemma (let mask = bit -. u64 1 in let z = x ^. (mask &. (x ^. y)) in if v bit = 1 then z == x else z == y) let lemma_choose_step bit p1 p2 = let mask = bit -. u64 1 in assert (v bit == 0 ==> v mask == pow2 64 - 1); assert (v bit == 1 ==> v mask == 0); let dummy = mask &. (p1 ^. p2) in logand_lemma mask (p1 ^. p2); assert (v bit == 1 ==> v dummy == 0); assert (v bit == 0 ==> v dummy == v (p1 ^. p2)); let p1' = p1 ^. dummy in assert (v dummy == v (if v bit = 1 then u64 0 else (p1 ^. p2))); logxor_lemma p1 p2 val lemma_subm_conditional: x0:nat -> x1:nat -> x2:nat -> x3:nat -> x4:nat -> y0:nat -> y1:nat -> y2:nat -> y3:nat -> y4:nat -> b0:nat -> b1:nat -> b2:nat -> b3:nat -> b4:nat -> Lemma ( x0 - y0 + b0 * pow2 56 + (x1 - y1 - b0 + b1 * pow2 56) * pow2 56 + (x2 - y2 - b1 + b2 * pow2 56) * pow2 112 + (x3 - y3 - b2 + b3 * pow2 56) * pow2 168 + (x4 - y4 - b3 + b4 * pow2 56) * pow2 224 == (x0 + x1 * pow2 56 + x2 * pow2 112 + x3 * pow2 168 + x4 * pow2 224) - (y0 + y1 * pow2 56 + y2 * pow2 112 + y3 * pow2 168 + y4 * pow2 224) + b4 * pow2 280) let lemma_subm_conditional x0 x1 x2 x3 x4 y0 y1 y2 y3 y4 b0 b1 b2 b3 b4 = assert_norm (pow2 56 * pow2 56 = pow2 112); assert_norm (pow2 56 * pow2 112 = pow2 168); assert_norm (pow2 56 * pow2 168 = pow2 224); assert_norm (pow2 56 * pow2 224 = pow2 280); assert ( x0 - y0 + b0 * pow2 56 + (x1 - y1 - b0 + b1 * pow2 56) * pow2 56 + (x2 - y2 - b1 + b2 * pow2 56) * pow2 112 + (x3 - y3 - b2 + b3 * pow2 56) * pow2 168 + (x4 - y4 - b3 + b4 * pow2 56) * pow2 224 == (x0 + x1 * pow2 56 + x2 * pow2 112 + x3 * pow2 168 + x4 * pow2 224) - (y0 + y1 * pow2 56 + y2 * pow2 112 + y3 * pow2 168 + y4 * pow2 224) + b4 * pow2 280) by (int_semiring ()); () val lemma_div224: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in wide_as_nat5 x / pow2 224 == v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280)) #push-options "--z3rlimit 50" let lemma_div224 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert (wide_as_nat5 x == v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168 + v x4 * pow2 224 + v x5 * pow2 280 + v x6 * pow2 336 + v x7 * pow2 392 + v x8 * pow2 448 + v x9 * pow2 504); assert_norm (pow2 56 * pow2 224 == pow2 280); assert_norm (pow2 112 * pow2 224 == pow2 336); assert_norm (pow2 168 * pow2 224 == pow2 392); assert_norm (pow2 224 * pow2 224 == pow2 448); assert_norm (pow2 280 * pow2 224 == pow2 504); calc (==) { wide_as_nat5 x / pow2 224; (==) { } (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168 + (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) * pow2 224) / pow2 224; (==) { FStar.Math.Lemmas.lemma_div_plus (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168) (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) (pow2 224) } (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168) / pow2 224 + v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280; (==) { FStar.Math.Lemmas.small_division_lemma_1 (v x0 + v x1 * pow2 56 + v x2 * pow2 112 + v x3 * pow2 168) (pow2 224) } v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280; } #pop-options val lemma_div248_aux: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 512) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in wide_as_nat5 x / pow2 248 == v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256)) open FStar.Tactics.CanonCommSemiring #push-options "--z3cliopt smt.arith.nl=false" let lemma_div248_aux x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 248 == pow2 224 * pow2 24); assert_norm (pow2 56 == pow2 32 * pow2 24); assert_norm (pow2 112 == pow2 88 * pow2 24); assert_norm (pow2 168 == pow2 144 * pow2 24); assert_norm (pow2 224 == pow2 200 * pow2 24); assert_norm (pow2 280 == pow2 256 * pow2 24); assert_norm (0 < pow2 24); calc (==) { wide_as_nat5 x / pow2 248; (==) { FStar.Math.Lemmas.division_multiplication_lemma (wide_as_nat5 x) (pow2 224) (pow2 24) } (wide_as_nat5 x / pow2 224) / pow2 24; (==) { lemma_div224 x } (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) / pow2 24; (==) { _ by (Tactics.mapply (`feq #int #int (fun x -> x / pow2 24)); int_semiring ()) } (v x4 + (v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256) * pow2 24) / pow2 24; (==) { FStar.Math.Lemmas.lemma_div_plus (v x4) (v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256) (pow2 24) } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256; } #pop-options val lemma_div248_x5: x5:uint64 -> Lemma ( pow2 32 * (v x5 % pow2 24) + v x5 / pow2 24 * pow2 56 == v x5 * pow2 32) let lemma_div248_x5 x5 = assert_norm (pow2 32 * pow2 24 = pow2 56) val lemma_div248_x6: x6:uint64 -> Lemma (pow2 32 * (v x6 % pow2 24) * pow2 56 + v x6 / pow2 24 * pow2 112 == v x6 * pow2 88) let lemma_div248_x6 x6 = calc (==) { pow2 32 * (v x6 % pow2 24) * pow2 56 + v x6 / pow2 24 * pow2 112; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x6 / pow2 24) * pow2 24 + v x6 % pow2 24) * pow2 88; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x6) (pow2 24) } v x6 * pow2 88; } val lemma_div248_x7: x7:uint64 -> Lemma (pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168 == v x7 * pow2 144) let lemma_div248_x7 x7 = calc (==) { pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x7 / pow2 24) * pow2 24 + v x7 % pow2 24) * pow2 144; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x7) (pow2 24) } v x7 * pow2 144; } val lemma_div248_x8: x8:uint64 -> Lemma (pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224 == v x8 * pow2 200) let lemma_div248_x8 x8 = calc (==) { pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x8 / pow2 24) * pow2 24 + v x8 % pow2 24) * pow2 200; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x8) (pow2 24) } v x8 * pow2 200; } val lemma_div248_x9: x9:uint64{v x9 < pow2 24} -> Lemma (pow2 32 * (v x9 % pow2 24) * pow2 224 == v x9 * pow2 256) let lemma_div248_x9 x9 = calc (==) { pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { Math.Lemmas.small_mod (v x9) (pow2 24) } pow2 32 * v x9 * pow2 224; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x9 * pow2 256; } val lemma_wide_as_nat_pow512: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 512) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in v x9 < pow2 24)) let lemma_wide_as_nat_pow512 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 504 * pow2 8 = pow2 512); FStar.Math.Lemmas.pow2_minus 512 504; assert (v x9 < pow2 8); assert_norm (pow2 8 < pow2 24) val lemma_div248: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 512) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in let z0 = v x4 / pow2 24 + pow2 32 * (v x5 % pow2 24) in let z1 = v x5 / pow2 24 + pow2 32 * (v x6 % pow2 24) in let z2 = v x6 / pow2 24 + pow2 32 * (v x7 % pow2 24) in let z3 = v x7 / pow2 24 + pow2 32 * (v x8 % pow2 24) in let z4 = v x8 / pow2 24 + pow2 32 * (v x9 % pow2 24) in wide_as_nat5 x / pow2 248 == z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224)) #push-options "--z3rlimit 50" let lemma_div248 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in lemma_wide_as_nat_pow512 x; assert (v x9 < pow2 24); calc (==) { (let z0 = v x4 / pow2 24 + pow2 32 * (v x5 % pow2 24) in let z1 = v x5 / pow2 24 + pow2 32 * (v x6 % pow2 24) in let z2 = v x6 / pow2 24 + pow2 32 * (v x7 % pow2 24) in let z3 = v x7 / pow2 24 + pow2 32 * (v x8 % pow2 24) in let z4 = v x8 / pow2 24 + pow2 32 * (v x9 % pow2 24) in z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224); (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x4 / pow2 24 + pow2 32 * (v x5 % pow2 24) + v x5 / pow2 24 * pow2 56 + pow2 32 * (v x6 % pow2 24) * pow2 56 + v x6 / pow2 24 * pow2 112 + pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168 + pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224 + pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { lemma_div248_x5 x5; lemma_div248_x6 x6 } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + pow2 32 * (v x7 % pow2 24) * pow2 112 + v x7 / pow2 24 * pow2 168 + pow2 32 * (v x8 % pow2 24) * pow2 168 + v x8 / pow2 24 * pow2 224 + pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { lemma_div248_x7 x7; lemma_div248_x8 x8 } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + pow2 32 * (v x9 % pow2 24) * pow2 224; (==) { lemma_div248_x9 x9 } v x4 / pow2 24 + v x5 * pow2 32 + v x6 * pow2 88 + v x7 * pow2 144 + v x8 * pow2 200 + v x9 * pow2 256; (==) { lemma_div248_aux x } wide_as_nat5 x / pow2 248; } #pop-options val lemma_add_modq5: x:qelem5 -> y:qelem5 -> t:qelem5 -> Lemma (requires qelem_fits5 x (1, 1, 1, 1, 1) /\ qelem_fits5 y (1, 1, 1, 1, 1) /\ qelem_fits5 t (1, 1, 1, 1, 1) /\ as_nat5 x < S.q /\ as_nat5 y < S.q /\ as_nat5 t == as_nat5 x + as_nat5 y) (ensures (let res = if as_nat5 t >= S.q then as_nat5 t - S.q else as_nat5 t in res < S.q /\ res == (as_nat5 x + as_nat5 y) % S.q)) let lemma_add_modq5 x y t = assert (as_nat5 t == as_nat5 x + as_nat5 y); let res = if as_nat5 t >= S.q then as_nat5 t - S.q else as_nat5 t in assert (res < S.q); if as_nat5 t >= S.q then ( FStar.Math.Lemmas.sub_div_mod_1 (as_nat5 t) S.q; assert (res % S.q == as_nat5 t % S.q)) else assert (res % S.q == as_nat5 t % S.q); FStar.Math.Lemmas.small_mod res S.q val lemma_wide_as_nat_pow528: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 528) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in v x9 < pow2 40)) let lemma_wide_as_nat_pow528 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 504 * pow2 24 = pow2 528); FStar.Math.Lemmas.pow2_minus 528 504; assert (v x9 < pow2 24); assert_norm (pow2 24 < pow2 40) #push-options "--z3cliopt smt.arith.nl=false" val lemma_div264_aux: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 528) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in wide_as_nat5 x / pow2 264 == v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240)) let lemma_div264_aux x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in assert_norm (pow2 264 == pow2 224 * pow2 40); assert_norm (pow2 56 == pow2 16 * pow2 40); assert_norm (pow2 112 == pow2 72 * pow2 40); assert_norm (pow2 168 == pow2 128 * pow2 40); assert_norm (pow2 224 == pow2 184 * pow2 40); assert_norm (pow2 280 == pow2 240 * pow2 40); assert_norm (0 < pow2 40); calc (==) { wide_as_nat5 x / pow2 264; (==) { FStar.Math.Lemmas.division_multiplication_lemma (wide_as_nat5 x) (pow2 224) (pow2 40) } (wide_as_nat5 x / pow2 224) / pow2 40; (==) { lemma_div224 x } (v x4 + v x5 * pow2 56 + v x6 * pow2 112 + v x7 * pow2 168 + v x8 * pow2 224 + v x9 * pow2 280) / pow2 40; (==) { _ by (Tactics.mapply (`feq #int #int (fun x -> x / pow2 40)); int_semiring ()) } (v x4 + (v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240) * pow2 40) / pow2 40; (==) { FStar.Math.Lemmas.lemma_div_plus (v x4) (v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240) (pow2 40) } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240; } val lemma_div264_x5: x5:uint64 -> Lemma (pow2 16 * (v x5 % pow2 40) + v x5 / pow2 40 * pow2 56 == v x5 * pow2 16) let lemma_div264_x5 x5 = assert_norm (0 < pow2 24); calc (==) { pow2 16 * (v x5 % pow2 40) + v x5 / pow2 40 * pow2 56; (==) { _ by (Tactics.norm [delta_only [`%pow2]; primops]; int_semiring ()) } ((v x5 / pow2 40) * pow2 40 + v x5 % pow2 40) * pow2 16; (==) { FStar.Math.Lemmas.euclidean_division_definition (v x5) (pow2 40) } v x5 * pow2 16; } val lemma_div264_x6: x6:uint64 -> Lemma (pow2 16 * (v x6 % pow2 40) * pow2 56 + v x6 / pow2 40 * pow2 112 == v x6 * pow2 72) let lemma_div264_x6 x6 = calc (==) { pow2 16 * (v x6 % pow2 40) * pow2 56 + v x6 / pow2 40 * pow2 112; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } ((v x6 / pow2 40) * pow2 40 + v x6 % pow2 40) * pow2 72; (==) { Math.Lemmas.euclidean_division_definition (v x6) (pow2 40) } v x6 * pow2 72; } val lemma_div264_x7: x7:uint64 -> Lemma (pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168 == v x7 * pow2 128) let lemma_div264_x7 x7 = calc (==) { pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } ((v x7 / pow2 40) * pow2 40 + v x7 % pow2 40) * pow2 128; (==) { Math.Lemmas.euclidean_division_definition (v x7) (pow2 40) } v x7 * pow2 128; } val lemma_div264_x8: x8:uint64 -> Lemma (pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224 == v x8 * pow2 184) let lemma_div264_x8 x8 = calc (==) { pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } ((v x8 / pow2 40) * pow2 40 + v x8 % pow2 40) * pow2 184; (==) { Math.Lemmas.euclidean_division_definition (v x8) (pow2 40) } v x8 * pow2 184; } val lemma_div264_x9: x9:uint64{v x9 < pow2 40} -> Lemma (pow2 16 * (v x9 % pow2 40) * pow2 224 == v x9 * pow2 240) let lemma_div264_x9 x9 = calc (==) { pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { Math.Lemmas.small_mod (v x9) (pow2 40) } pow2 16 * v x9 * pow2 224; (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x9 * pow2 240; } val lemma_div264: x:qelem_wide5 -> Lemma (requires qelem_wide_fits5 x (1, 1, 1, 1, 1, 1, 1, 1, 1, 1) /\ wide_as_nat5 x < pow2 528) (ensures (let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in let z0 = v x4 / pow2 40 + pow2 16 * (v x5 % pow2 40) in let z1 = v x5 / pow2 40 + pow2 16 * (v x6 % pow2 40) in let z2 = v x6 / pow2 40 + pow2 16 * (v x7 % pow2 40) in let z3 = v x7 / pow2 40 + pow2 16 * (v x8 % pow2 40) in let z4 = v x8 / pow2 40 + pow2 16 * (v x9 % pow2 40) in wide_as_nat5 x / pow2 264 == z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224)) #push-options "--z3rlimit 50" let lemma_div264 x = let (x0, x1, x2, x3, x4, x5, x6, x7, x8, x9) = x in lemma_wide_as_nat_pow528 x; assert (v x9 < pow2 40); calc (==) { (let z0 = v x4 / pow2 40 + pow2 16 * (v x5 % pow2 40) in let z1 = v x5 / pow2 40 + pow2 16 * (v x6 % pow2 40) in let z2 = v x6 / pow2 40 + pow2 16 * (v x7 % pow2 40) in let z3 = v x7 / pow2 40 + pow2 16 * (v x8 % pow2 40) in let z4 = v x8 / pow2 40 + pow2 16 * (v x9 % pow2 40) in z0 + z1 * pow2 56 + z2 * pow2 112 + z3 * pow2 168 + z4 * pow2 224); (==) { _ by (Tactics.norm [delta; primops]; int_semiring ()) } v x4 / pow2 40 + pow2 16 * (v x5 % pow2 40) + v x5 / pow2 40 * pow2 56 + pow2 16 * (v x6 % pow2 40) * pow2 56 + v x6 / pow2 40 * pow2 112 + pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168 + pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224 + pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { lemma_div264_x5 x5; lemma_div264_x6 x6 } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + pow2 16 * (v x7 % pow2 40) * pow2 112 + v x7 / pow2 40 * pow2 168 + pow2 16 * (v x8 % pow2 40) * pow2 168 + v x8 / pow2 40 * pow2 224 + pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { lemma_div264_x7 x7; lemma_div264_x8 x8 } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + pow2 16 * (v x9 % pow2 40) * pow2 224; (==) { lemma_div264_x9 x9 } v x4 / pow2 40 + v x5 * pow2 16 + v x6 * pow2 72 + v x7 * pow2 128 + v x8 * pow2 184 + v x9 * pow2 240; (==) { lemma_div264_aux x } wide_as_nat5 x / pow2 264; } #pop-options #pop-options // "--z3cliopt smt.arith.nl=false" val lemma_mod_264_aux: t:qelem_wide5 -> Lemma (requires qelem_wide_fits5 t (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in (wide_as_nat5 t) % pow2 264 == (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264)) #push-options "--z3rlimit 150" let lemma_mod_264_aux t = let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in let res = (t0, t1, t2, t3, t4 &. u64 0xffffffffff) in assert_norm (pow2 16 * pow2 264 == pow2 280); assert_norm (pow2 72 * pow2 264 == pow2 336); assert_norm (pow2 128 * pow2 264 == pow2 392); assert_norm (pow2 184 * pow2 264 == pow2 448); assert_norm (pow2 240 * pow2 264 == pow2 504); calc (==) { (wide_as_nat5 t) % pow2 264; (==) { } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224 + (v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) % pow2 264; (==) { FStar.Math.Lemmas.lemma_mod_add_distr (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) ((v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) (pow2 264)} ((v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) + ((v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) * pow2 264) % pow2 264) % pow2 264; (==) { FStar.Math.Lemmas.cancel_mul_mod (v t5 * pow2 16 + v t6 * pow2 72 + v t7 * pow2 128 + v t8 * pow2 184 + v t9 * pow2 240) (pow2 264) } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264; } #pop-options val lemma_as_nat_pow264: x:qelem5 -> Lemma (requires (let (x0, x1, x2, x3, x4) = x in qelem_fits5 x (1, 1, 1, 1, 1) /\ v x4 < pow2 40)) (ensures as_nat5 x < pow2 264) let lemma_as_nat_pow264 x = let (x0, x1, x2, x3, x4) = x in assert_norm (pow2 40 * pow2 224 = pow2 264) val lemma_mod_264: t:qelem_wide5 -> Lemma (requires qelem_wide_fits5 t (1, 1, 1, 1, 1, 1, 1, 1, 1, 1)) (ensures (let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in let res = (t0, t1, t2, t3, t4 &. u64 0xffffffffff) in qelem_fits5 res (1, 1, 1, 1, 1) /\ as_nat5 res == (wide_as_nat5 t) % pow2 264)) let lemma_mod_264 t = let (t0, t1, t2, t3, t4, t5, t6, t7, t8, t9) = t in let t4' = t4 &. u64 0xffffffffff in let res = (t0, t1, t2, t3, t4') in assert_norm (pow2 40 < pow2 64); assert_norm (pow2 40 - 1 == 0xffffffffff); mod_mask_lemma t4 40ul; assert (v (mod_mask #U64 #SEC 40ul) == 0xffffffffff); assert (v (t4 &. u64 0xffffffffff) == v t4 % pow2 40); calc (==) { (wide_as_nat5 t) % pow2 264; (==) { lemma_mod_264_aux t } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + v t4 * pow2 224) % pow2 264; (==) { FStar.Math.Lemmas.lemma_mod_add_distr (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168) (v t4 * pow2 224) (pow2 264) } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + (v t4 * pow2 224) % pow2 264) % pow2 264; (==) { FStar.Math.Lemmas.pow2_multiplication_modulo_lemma_2 (v t4) 264 224 } (v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + (v t4 % pow2 40) * pow2 224) % pow2 264; (==) { lemma_as_nat_pow264 res; FStar.Math.Lemmas.modulo_lemma (as_nat5 res) (pow2 264) } v t0 + v t1 * pow2 56 + v t2 * pow2 112 + v t3 * pow2 168 + (v t4 % pow2 40) * pow2 224; } val lemma_as_nat_pow264_x4: x:qelem5 -> Lemma (requires qelem_fits5 x (1, 1, 1, 1, 1) /\ as_nat5 x < pow2 264) (ensures (let (x0, x1, x2, x3, x4) = x in v x4 < pow2 40)) let lemma_as_nat_pow264_x4 x = let (x0, x1, x2, x3, x4) = x in assert_norm (pow2 40 * pow2 224 = pow2 264) val lemma_sub_mod_264_aux: x0:nat -> x1:nat -> x2:nat -> x3:nat -> x4:nat -> y0:nat -> y1:nat -> y2:nat -> y3:nat -> y4:nat -> c1:nat -> c2:nat -> c3:nat -> c4:nat -> c5:nat -> Lemma ( x0 - y0 + c1 * pow56 + (x1 - y1 - c1 + c2 * pow56) * pow56 + (x2 - y2 - c2 + c3 * pow56) * pow112 + (x3 - y3 - c3 + c4 * pow56) * pow168 + (x4 - y4 - c4 + pow2 40 * c5) * pow224 == (x0 + x1 * pow2 56 + x2 * pow2 112 + x3 * pow2 168 + x4 * pow2 224) - (y0 + y1 * pow2 56 + y2 * pow2 112 + y3 * pow2 168 + y4 * pow2 224) + c5 * pow2 264) #push-options "--z3rlimit 50" let lemma_sub_mod_264_aux x0 x1 x2 x3 x4 y0 y1 y2 y3 y4 b0 b1 b2 b3 b4 = assert_norm (pow2 56 * pow2 56 = pow2 112); assert_norm (pow2 56 * pow2 112 = pow2 168); assert_norm (pow2 56 * pow2 168 = pow2 224); assert_norm (pow2 40 * pow2 224 = pow2 264) #pop-options val lemma_sub_mod_264: x:qelem5 -> y:qelem5 -> t:qelem5 -> c5:uint64 -> Lemma (requires qelem_fits5 x (1, 1, 1, 1, 1) /\ qelem_fits5 y (1, 1, 1, 1, 1) /\ qelem_fits5 t (1, 1, 1, 1, 1) /\ as_nat5 x < pow2 264 /\ as_nat5 y < pow2 264 /\ as_nat5 t == as_nat5 x - as_nat5 y + v c5 * pow2 264 /\ v c5 <= 1 /\ (if v c5 = 0 then as_nat5 x >= as_nat5 y else as_nat5 x < as_nat5 y)) (ensures (if as_nat5 x >= as_nat5 y then as_nat5 t == as_nat5 x - as_nat5 y else as_nat5 t == as_nat5 x - as_nat5 y + pow2 264)) #push-options "--z3rlimit 50" let lemma_sub_mod_264 x y t c5 = assert (if v c5 = 0 then as_nat5 x >= as_nat5 y else as_nat5 x < as_nat5 y); assert (as_nat5 t == as_nat5 x - as_nat5 y + v c5 * pow2 264); if as_nat5 x >= as_nat5 y then assert (v c5 == 0 /\ as_nat5 t == as_nat5 x - as_nat5 y) else assert (v c5 == 1 /\ as_nat5 t == as_nat5 x - as_nat5 y + pow2 264) #pop-options let lemma_mul_qelem5 (x0 x1 x2 x3 x4 y0 y1 y2 y3 y4:nat) : Lemma ((x0 + x1 * pow2 56 + x2 * pow2 112 + x3 * pow2 168 + x4 * pow2 224) * (y0 + y1 * pow2 56 + y2 * pow2 112 + y3 * pow2 168 + y4 * pow2 224) == x0 * y0 + (x0 * y1 + x1 * y0) * pow56 + (x0 * y2 + x1 * y1 + x2 * y0) * pow112 + (x0 * y3 + x1 * y2 + x2 * y1 + x3 * y0) * pow168 + (x0 * y4 + x1 * y3 + x2 * y2 + x3 * y1 + x4 * y0) * pow224 + (x1 * y4 + x2 * y3 + x3 * y2 + x4 * y1) * pow280 + (x2 * y4 + x3 * y3 + x4 * y2) * pow336 + (x3 * y4 + x4 * y3) * pow392 + (x4 * y4) * pow448) = assert ((x0 + x1 * pow2 56 + x2 * pow2 112 + x3 * pow2 168 + x4 * pow2 224) * (y0 + y1 * pow2 56 + y2 * pow2 112 + y3 * pow2 168 + y4 * pow2 224) == x0 * y0 + (x0 * y1 + x1 * y0) * pow56 + (x0 * y2 + x1 * y1 + x2 * y0) * pow112 + (x0 * y3 + x1 * y2 + x2 * y1 + x3 * y0) * pow168 + (x0 * y4 + x1 * y3 + x2 * y2 + x3 * y1 + x4 * y0) * pow224 + (x1 * y4 + x2 * y3 + x3 * y2 + x4 * y1) * pow280 + (x2 * y4 + x3 * y3 + x4 * y2) * pow336 + (x3 * y4 + x4 * y3) * pow392 + (x4 * y4) * pow448) by (Tactics.norm [zeta; iota; delta; primops]; int_semiring ()) val lemma_mul_5_low_264: x1:nat -> x2:nat -> x3:nat -> x4:nat -> x5:nat -> y1:nat -> y2:nat -> y3:nat -> y4:nat -> y5:nat -> Lemma ( (x1 * y1) >= 0 /\ (x2 * y1 + x1 * y2 + ((x1 * y1) / pow2 56)) >= 0 /\ (x3 * y1 + x2 * y2 + x1 * y3 + ((x2 * y1 + x1 * y2 + ((x1 * y1) / pow2 56)) / pow2 56)) >= 0 /\ (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4 + ((x3 * y1 + x2 * y2 + x1 * y3 + ((x2 * y1 + x1 * y2 + ((x1 * y1) / pow2 56)) / pow2 56)) / pow2 56)) >= 0 /\ ( let a0 = (x1 * y1) % pow2 56 in let a1 = ((x2 * y1 + x1 * y2 + ((x1 * y1) / pow2 56)) % pow2 56) in let a2 = ((x3 * y1 + x2 * y2 + x1 * y3 + ((x2 * y1 + x1 * y2 + ((x1 * y1) / pow2 56)) / pow2 56)) % pow2 56) in let a3 = ((x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4 + ((x3 * y1 + x2 * y2 + x1 * y3 + ((x2 * y1 + x1 * y2 + ((x1 * y1) / pow2 56)) / pow2 56)) / pow2 56)) % pow2 56) in let a4 = (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5 + ((x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4 + ((x3 * y1 + x2 * y2 + x1 * y3 + ((x2 * y1 + x1 * y2 + ((x1 * y1) / pow2 56)) / pow2 56)) / pow2 56)) / pow2 56)) in ((x1 + pow2 56 * x2 + pow2 112 * x3 + pow2 168 * x4 + pow2 224 * x5) * (y1 + pow2 56 * y2 + pow2 112 * y3 + pow2 168 * y4 + pow2 224 * y5)) % pow2 264 == a0 + pow2 56 * a1 + pow2 112 * a2 + pow2 168 * a3 + pow2 224 * (a4 % pow2 40))) private let lemma_mul_nat_is_nat (a:nat) (b:nat) : Lemma (a*b >= 0) = () private let lemma_div_nat_is_nat (a:nat) (b:pos) : Lemma (a/b >= 0) = () private val lemma_mul_5''': x1:nat -> x2:nat -> x3:nat -> x4:nat -> x5:nat -> y1:nat -> y2:nat -> y3:nat -> y4:nat -> y5:nat -> Lemma (((x1 + pow2 56 * x2 + pow2 112 * x3 + pow2 168 * x4 + pow2 224 * x5) * (y1 + pow2 56 * y2 + pow2 112 * y3 + pow2 168 * y4 + pow2 224 * y5)) % pow2 264 == (x1 * y1 + pow2 56 * (x2 * y1 + x1 * y2) + pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5)) % pow2 264)
{ "checked_file": "/", "dependencies": [ "Spec.Ed25519.fst.checked", "prims.fst.checked", "Lib.IntTypes.fsti.checked", "Hacl.Spec.BignumQ.Definitions.fst.checked", "FStar.UInt32.fsti.checked", "FStar.Tactics.Effect.fsti.checked", "FStar.Tactics.CanonCommSemiring.fst.checked", "FStar.Tactics.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.Calc.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Spec.BignumQ.Lemmas.fst" }
[ { "abbrev": false, "full_module": "FStar.Tactics.CanonCommSemiring", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.BignumQ.Definitions", "short_module": null }, { "abbrev": true, "full_module": "Spec.Ed25519", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Tactics.CanonCommSemiring", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.BignumQ", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.BignumQ", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x1: Prims.nat -> x2: Prims.nat -> x3: Prims.nat -> x4: Prims.nat -> x5: Prims.nat -> y1: Prims.nat -> y2: Prims.nat -> y3: Prims.nat -> y4: Prims.nat -> y5: Prims.nat -> FStar.Pervasives.Lemma (ensures (x1 + Prims.pow2 56 * x2 + Prims.pow2 112 * x3 + Prims.pow2 168 * x4 + Prims.pow2 224 * x5) * (y1 + Prims.pow2 56 * y2 + Prims.pow2 112 * y3 + Prims.pow2 168 * y4 + Prims.pow2 224 * y5) % Prims.pow2 264 == (x1 * y1 + Prims.pow2 56 * (x2 * y1 + x1 * y2) + Prims.pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + Prims.pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + Prims.pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5)) % Prims.pow2 264)
FStar.Pervasives.Lemma
[ "lemma" ]
[]
[ "Prims.nat", "FStar.Calc.calc_finish", "Prims.int", "Prims.eq2", "Prims.op_Modulus", "FStar.Mul.op_Star", "Prims.op_Addition", "Prims.pow2", "Prims.Cons", "FStar.Preorder.relation", "Prims.Nil", "Prims.unit", "FStar.Calc.calc_step", "FStar.Calc.calc_init", "FStar.Calc.calc_pack", "Prims.squash" ]
[]
false
false
true
false
false
let lemma_mul_5''' x1 x2 x3 x4 x5 y1 y2 y3 y4 y5 =
calc ( == ) { ((x1 + pow2 56 * x2 + pow2 112 * x3 + pow2 168 * x4 + pow2 224 * x5) * (y1 + pow2 56 * y2 + pow2 112 * y3 + pow2 168 * y4 + pow2 224 * y5)) % pow2 264; ( == ) { FStar.Tactics.Effect.synth_by_tactic (fun _ -> (Tactics.mapply (`feq #int #int (fun x -> x % pow2 264)); Tactics.norm [zeta; iota; delta; primops]; int_semiring ())) } (x1 * y1 + pow2 56 * (x2 * y1 + x1 * y2) + pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5) + ((pow2 16 * x2) * y5 + (pow2 16 * x3) * y4 + (pow2 72 * x3) * y5 + (pow2 16 * x4) * y3 + (pow2 72 * x4) * y4 + (pow2 128 * x4) * y5 + (pow2 16 * x5) * y2 + (pow2 72 * x5) * y3 + (pow2 128 * x5) * y4 + (pow2 184 * x5) * y5) * pow2 264) % pow2 264; ( == ) { FStar.Tactics.Effect.synth_by_tactic (fun _ -> (Tactics.mapply (`eq_eq2); Tactics.mapply (`Math.Lemmas.lemma_mod_plus))) } (x1 * y1 + pow2 56 * (x2 * y1 + x1 * y2) + pow2 112 * (x3 * y1 + x2 * y2 + x1 * y3) + pow2 168 * (x4 * y1 + x3 * y2 + x2 * y3 + x1 * y4) + pow2 224 * (x5 * y1 + x4 * y2 + x3 * y3 + x2 * y4 + x1 * y5)) % pow2 264; }
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.check_ecmult_endo_split
val check_ecmult_endo_split (r1 r2 r3 r4 : qelem) : Stack bool (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4) (ensures fun h0 b h1 -> modifies0 h0 h1 /\ b == (qas_nat h0 r1 < pow2 128 && qas_nat h0 r2 < pow2 128 && qas_nat h0 r3 < pow2 128 && qas_nat h0 r4 < pow2 128))
val check_ecmult_endo_split (r1 r2 r3 r4 : qelem) : Stack bool (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4) (ensures fun h0 b h1 -> modifies0 h0 h1 /\ b == (qas_nat h0 r1 < pow2 128 && qas_nat h0 r2 < pow2 128 && qas_nat h0 r3 < pow2 128 && qas_nat h0 r4 < pow2 128))
let check_ecmult_endo_split r1 r2 r3 r4 = let b1 = is_qelem_lt_pow2_128_vartime r1 in let b2 = is_qelem_lt_pow2_128_vartime r2 in let b3 = is_qelem_lt_pow2_128_vartime r3 in let b4 = is_qelem_lt_pow2_128_vartime r4 in b1 && b2 && b3 && b4
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 22, "end_line": 397, "start_col": 0, "start_line": 392 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q) inline_for_extraction noextract let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len inline_for_extraction noextract let table_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]Q or [r_small](-Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate) let lprecomp_get_vartime_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // -[r_small]Q = [r_small](-Q) SGL.aff_point_negate_cond_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h2 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (point_eval_lseq q) is_negate)) (v r_small)) inline_for_extraction noextract let table_lambda_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]([lambda]Q) or [r_small](-[lambda]Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_lambda_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_lambda_neg_inv_precomp q is_negate) let lprecomp_get_vartime_lambda_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_lambda_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); // -[r_small]Q = [r_small](-Q) point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // [lambda]([r_small]Q) or [lambda]([r_small](-Q)) point_mul_lambda_inplace res; let h3 = ST.get () in assert (point_eval h3 res == SG.point_mul_lambda (point_eval h2 res)); SGL.lemma_glv (point_eval h2 res); assert (S.to_aff_point (point_eval h3 res) == SG.aff_point_mul SG.lambda (S.to_aff_point (point_eval h2 res))); // [r_small]([lambda]Q) or [r_small](-[lambda]Q) SGL.aff_point_negate_cond_lambda_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h3 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate)) (v r_small)) //------------------------------ inline_for_extraction noextract val point_mul_g_double_split_lambda_table_noalloc: out:point -> table2:lbuffer uint64 (32ul *! 15ul) -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> p1:point -> p2:point -> is_negate1:bool -> is_negate2:bool -> is_negate3:bool -> is_negate4:bool -> Stack unit (requires fun h -> live h out /\ live h table2 /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ eq_or_disjoint q1 q2 /\ eq_or_disjoint q1 q3 /\ eq_or_disjoint q1 q4 /\ eq_or_disjoint q2 q3 /\ eq_or_disjoint q2 q4 /\ eq_or_disjoint q3 q4 /\ disjoint out q1 /\ disjoint out q2 /\ disjoint out q3 /\ disjoint out q4 /\ disjoint out r1 /\ disjoint out r2 /\ disjoint out r3 /\ disjoint out r4 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint table2 out /\ disjoint table2 r1 /\ disjoint table2 r2 /\ disjoint table2 r3 /\ disjoint table2 r4 /\ disjoint table2 p1 /\ disjoint table2 p2 /\ disjoint table2 q1 /\ disjoint table2 q2 /\ disjoint table2 q3 /\ disjoint table2 q4 /\ point_inv h q1 /\ point_inv h q2 /\ point_inv h q3 /\ point_inv h q4 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ point_eval h q1==SG.point_negate_cond (point_eval h p1) is_negate1 /\ point_eval h q2==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p1)) is_negate2 /\ point_eval h q3==SG.point_negate_cond (point_eval h p2) is_negate3 /\ point_eval h q4==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p2)) is_negate4 /\ qas_nat h r1 < S.q /\ qas_nat h r1 < pow2 128 /\ qas_nat h r2 < S.q /\ qas_nat h r2 < pow2 128 /\ qas_nat h r3 < S.q /\ qas_nat h r3 < pow2 128 /\ qas_nat h r4 < S.q /\ qas_nat h r4 < pow2 128 /\ table_inv_w5 (as_seq h p2) (as_seq h table2)) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ refl (as_seq h1 out) == LE.exp_four_fw S.mk_k256_comm_monoid (refl (as_seq h0 q1)) 128 (qas_nat h0 r1) (refl (as_seq h0 q2)) (qas_nat h0 r2) (refl (as_seq h0 q3)) (qas_nat h0 r3) (refl (as_seq h0 q4)) (qas_nat h0 r4) 5) let point_mul_g_double_split_lambda_table_noalloc out table2 r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4 = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in [@inline_let] let bLen = 4ul in [@inline_let] let bBits = 128ul in let h0 = ST.get () in recall_contents precomp_basepoint_table_w5 precomp_basepoint_table_lseq_w5; let h1 = ST.get () in precomp_basepoint_table_lemma_w5 (); assert (table_inv_w5 (as_seq h1 p1) (as_seq h1 precomp_basepoint_table_w5)); assert (table_inv_w5 (as_seq h1 p2) (as_seq h1 table2)); assert (point_eval_lseq (as_seq h1 q1) == SG.point_negate_cond (point_eval_lseq (as_seq h1 p1)) is_negate1); [@inline_let] let table_inv1 : BE.table_inv_t U64 len table_len = table_neg_inv_precomp (as_seq h0 p1) is_negate1 in assert (table_inv1 (as_seq h1 q1) (as_seq h1 precomp_basepoint_table_w5)); assert (point_eval_lseq (as_seq h1 q2) == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq (as_seq h1 p1))) is_negate2); [@inline_let] let table_inv2 : BE.table_inv_t U64 len table_len = table_lambda_neg_inv_precomp (as_seq h0 p1) is_negate2 in assert (table_inv2 (as_seq h1 q2) (as_seq h1 precomp_basepoint_table_w5)); assert (point_eval_lseq (as_seq h1 q3) == SG.point_negate_cond (point_eval_lseq (as_seq h1 p2)) is_negate3); [@inline_let] let table_inv3 : BE.table_inv_t U64 len table_len = table_neg_inv_precomp (as_seq h0 p2) is_negate3 in assert (table_inv3 (as_seq h1 q3) (as_seq h1 table2)); assert (point_eval_lseq (as_seq h1 q4) == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq (as_seq h1 p2))) is_negate4); [@inline_let] let table_inv4 : BE.table_inv_t U64 len table_len = table_lambda_neg_inv_precomp (as_seq h0 p2) is_negate4 in assert (table_inv4 (as_seq h1 q4) (as_seq h1 table2)); ME.mk_lexp_four_fw_tables len ctx_len k l table_len table_inv1 table_inv2 table_inv3 table_inv4 (lprecomp_get_vartime_neg (as_seq h0 p1) is_negate1) (lprecomp_get_vartime_lambda_neg (as_seq h0 p1) is_negate2) (lprecomp_get_vartime_neg (as_seq h0 p2) is_negate3) (lprecomp_get_vartime_lambda_neg (as_seq h0 p2) is_negate4) (null uint64) q1 bLen bBits r1 q2 r2 q3 r3 q4 r4 (to_const precomp_basepoint_table_w5) (to_const precomp_basepoint_table_w5) (to_const table2) (to_const table2) out val point_mul_g_double_split_lambda_table: out:point -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> p1:point -> p2:point -> is_negate1:bool -> is_negate2:bool -> is_negate3:bool -> is_negate4:bool -> Stack unit (requires fun h -> live h out /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ eq_or_disjoint q1 q2 /\ eq_or_disjoint q1 q3 /\ eq_or_disjoint q1 q4 /\ eq_or_disjoint q2 q3 /\ eq_or_disjoint q2 q4 /\ eq_or_disjoint q3 q4 /\ disjoint out q1 /\ disjoint out q2 /\ disjoint out q3 /\ disjoint out q4 /\ disjoint out r1 /\ disjoint out r2 /\ disjoint out r3 /\ disjoint out r4 /\ disjoint out p1 /\ disjoint out p2 /\ point_inv h q1 /\ point_inv h q2 /\ point_inv h q3 /\ point_inv h q4 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ point_eval h q1==SG.point_negate_cond (point_eval h p1) is_negate1 /\ point_eval h q2==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p1)) is_negate2 /\ point_eval h q3==SG.point_negate_cond (point_eval h p2) is_negate3 /\ point_eval h q4==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p2)) is_negate4 /\ qas_nat h r1 < S.q /\ qas_nat h r1 < pow2 128 /\ qas_nat h r2 < S.q /\ qas_nat h r2 < pow2 128 /\ qas_nat h r3 < S.q /\ qas_nat h r3 < pow2 128 /\ qas_nat h r4 < S.q /\ qas_nat h r4 < pow2 128) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ refl (as_seq h1 out) == LE.exp_four_fw S.mk_k256_comm_monoid (refl (as_seq h0 q1)) 128 (qas_nat h0 r1) (refl (as_seq h0 q2)) (qas_nat h0 r2) (refl (as_seq h0 q3)) (qas_nat h0 r3) (refl (as_seq h0 q4)) (qas_nat h0 r4) 5) [@CInline] let point_mul_g_double_split_lambda_table out r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4 = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let table_len = 32ul in let h0 = ST.get () in push_frame (); let table2 = create (table_len *! len) (u64 0) in PT.lprecomp_table len ctx_len k (null uint64) p2 table_len table2; point_mul_g_double_split_lambda_table_noalloc out table2 r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4; let h1 = ST.get () in assert (modifies (loc out |+| loc table2) h0 h1); pop_frame (); let h2 = ST.get () in assert (modifies (loc out) h0 h2) inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_endo_split: r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack (bool & bool & bool & bool) (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint r1 q1 /\ disjoint r1 r2 /\ disjoint r1 q2 /\ disjoint r1 r3 /\ disjoint r1 q3 /\ disjoint r1 r4 /\ disjoint r1 q4 /\ disjoint r1 scalar1 /\ disjoint r1 scalar2 /\ disjoint r1 p1 /\ disjoint r1 p2 /\ disjoint q1 r2 /\ disjoint q1 q2 /\ disjoint q1 r3 /\ disjoint q1 q3 /\ disjoint q1 r4 /\ disjoint q1 q4 /\ disjoint q1 scalar1 /\ disjoint q1 scalar2 /\ disjoint q1 p1 /\ disjoint q1 p2 /\ disjoint r2 q2 /\ disjoint r2 r3 /\ disjoint r2 q3 /\ disjoint r2 r4 /\ disjoint r2 q4 /\ disjoint r2 scalar1 /\ disjoint r2 scalar2 /\ disjoint r2 p1 /\ disjoint r2 p2 /\ disjoint q2 r3 /\ disjoint q2 q3 /\ disjoint q2 r4 /\ disjoint q2 q4 /\ disjoint q2 scalar1 /\ disjoint q2 scalar2 /\ disjoint q2 p1 /\ disjoint q2 p2 /\ disjoint r3 q3 /\ disjoint r3 r4 /\ disjoint r3 q4 /\ disjoint r3 scalar1 /\ disjoint r3 scalar2 /\ disjoint r3 p1 /\ disjoint r3 p2 /\ disjoint q3 r4 /\ disjoint q3 q4 /\ disjoint q3 scalar1 /\ disjoint q3 scalar2 /\ disjoint q3 p1 /\ disjoint q3 p2 /\ disjoint r4 q4 /\ disjoint r4 scalar1 /\ disjoint r4 scalar2 /\ disjoint r4 p1 /\ disjoint r4 p2 /\ disjoint q4 scalar1 /\ disjoint q4 scalar2 /\ disjoint q4 p1 /\ disjoint q4 p2 /\ point_inv h p1 /\ point_inv h p2 /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 (is_high1, is_high2, is_high3, is_high4) h1 -> modifies (loc r1 |+| loc r2 |+| loc r3 |+| loc r4 |+| loc q1 |+| loc q2 |+| loc q3 |+| loc q4) h0 h1 /\ point_inv h1 q1 /\ point_inv h1 q2 /\ point_inv h1 q3 /\ point_inv h1 q4 /\ (let r1_s0, r2_s0 = SG.scalar_split_lambda (qas_nat h0 scalar1) in let r3_s0, r4_s0 = SG.scalar_split_lambda (qas_nat h0 scalar2) in let r1_s, q1_s, r2_s, q2_s = SG.ecmult_endo_split (qas_nat h0 scalar1) (point_eval h0 p1) in let r3_s, q3_s, r4_s, q4_s = SG.ecmult_endo_split (qas_nat h0 scalar2) (point_eval h0 p2) in qas_nat h1 r1 == r1_s /\ qas_nat h1 r2 == r2_s /\ qas_nat h1 r3 == r3_s /\ qas_nat h1 r4 == r4_s /\ point_eval h1 q1 == q1_s /\ point_eval h1 q2 == q2_s /\ point_eval h1 q3 == q3_s /\ point_eval h1 q4 == q4_s /\ is_high1 == S.scalar_is_high r1_s0 /\ is_high2 == S.scalar_is_high r2_s0 /\ is_high3 == S.scalar_is_high r3_s0 /\ is_high4 == S.scalar_is_high r4_s0)) let point_mul_g_double_split_lambda_vartime_endo_split r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 = let is_high1, is_high2 = ecmult_endo_split r1 r2 q1 q2 scalar1 p1 in let is_high3, is_high4 = ecmult_endo_split r3 r4 q3 q4 scalar2 p2 in (is_high1, is_high2, is_high3, is_high4) val check_ecmult_endo_split (r1 r2 r3 r4 : qelem) : Stack bool (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4) (ensures fun h0 b h1 -> modifies0 h0 h1 /\ b == (qas_nat h0 r1 < pow2 128 && qas_nat h0 r2 < pow2 128 && qas_nat h0 r3 < pow2 128 && qas_nat h0 r4 < pow2 128))
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
r1: Hacl.K256.Scalar.qelem -> r2: Hacl.K256.Scalar.qelem -> r3: Hacl.K256.Scalar.qelem -> r4: Hacl.K256.Scalar.qelem -> FStar.HyperStack.ST.Stack Prims.bool
FStar.HyperStack.ST.Stack
[]
[]
[ "Hacl.K256.Scalar.qelem", "Prims.op_AmpAmp", "Prims.bool", "Hacl.K256.Scalar.is_qelem_lt_pow2_128_vartime" ]
[]
false
true
false
false
false
let check_ecmult_endo_split r1 r2 r3 r4 =
let b1 = is_qelem_lt_pow2_128_vartime r1 in let b2 = is_qelem_lt_pow2_128_vartime r2 in let b3 = is_qelem_lt_pow2_128_vartime r3 in let b4 = is_qelem_lt_pow2_128_vartime r4 in b1 && b2 && b3 && b4
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.table_lambda_neg_inv_precomp
val table_lambda_neg_inv_precomp (q: LSeq.lseq uint64 15) (is_negate: bool) : BE.table_inv_t U64 15ul 32ul
val table_lambda_neg_inv_precomp (q: LSeq.lseq uint64 15) (is_negate: bool) : BE.table_inv_t U64 15ul 32ul
let table_lambda_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j)
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 72, "end_line": 101, "start_col": 0, "start_line": 95 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q) inline_for_extraction noextract let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len inline_for_extraction noextract let table_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]Q or [r_small](-Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate) let lprecomp_get_vartime_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // -[r_small]Q = [r_small](-Q) SGL.aff_point_negate_cond_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h2 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (point_eval_lseq q) is_negate)) (v r_small))
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
q: Lib.Sequence.lseq Lib.IntTypes.uint64 15 -> is_negate: Prims.bool -> Hacl.Impl.Exponentiation.table_inv_t Lib.IntTypes.U64 15ul 32ul
Prims.Tot
[ "total" ]
[]
[ "Lib.Sequence.lseq", "Lib.IntTypes.uint64", "Prims.bool", "Lib.IntTypes.uint_t", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "Lib.IntTypes.v", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "FStar.UInt32.__uint_to_t", "Lib.IntTypes.op_Star_Bang", "Prims.l_and", "Prims.eq2", "Spec.K256.PointOps.proj_point", "Hacl.Impl.K256.Point.point_eval_lseq", "Hacl.Spec.K256.GLV.point_negate_cond", "Hacl.Spec.K256.GLV.point_mul_lambda", "Prims.l_Forall", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Impl.PrecompTable.precomp_table_inv", "Hacl.Impl.K256.Group.mk_k256_concrete_ops", "Hacl.Impl.Exponentiation.table_inv_t" ]
[]
false
false
false
false
false
let table_lambda_neg_inv_precomp (q: LSeq.lseq uint64 15) (is_negate: bool) : BE.table_inv_t U64 15ul 32ul =
fun a table -> point_eval_lseq a == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate /\ (forall (j: nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j)
false
FStar.Tactics.Effect.fst
FStar.Tactics.Effect.with_tactic
val with_tactic (t : unit -> Tac unit) (p:Type u#a) : Type u#a
val with_tactic (t : unit -> Tac unit) (p:Type u#a) : Type u#a
let with_tactic _ p = p
{ "file_name": "ulib/FStar.Tactics.Effect.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
{ "end_col": 23, "end_line": 30, "start_col": 0, "start_line": 30 }
(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. *) module FStar.Tactics.Effect open FStar.Stubs.Reflection.Types open FStar.Stubs.Tactics.Types open FStar.Stubs.Tactics.Result /// This admit is to typecheck the bind implementation when the /// interface is interleaved #push-options "--admit_smt_queries true" let tac_bind_interleave_begin = () #pop-options let tac_bind_interleave_end = ()
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Stubs.Tactics.Types.fsti.checked", "FStar.Stubs.Tactics.Result.fsti.checked", "FStar.Stubs.Reflection.Types.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "FStar.Tactics.Effect.fst" }
[ { "abbrev": false, "full_module": "FStar.Stubs.Tactics.Result", "short_module": null }, { "abbrev": false, "full_module": "FStar.Stubs.Tactics.Types", "short_module": null }, { "abbrev": false, "full_module": "FStar.Stubs.Reflection.Types", "short_module": null }, { "abbrev": false, "full_module": "FStar.Monotonic.Pure", "short_module": null }, { "abbrev": false, "full_module": "FStar.Tactics", "short_module": null }, { "abbrev": false, "full_module": "FStar.Tactics", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
t: (_: Prims.unit -> FStar.Tactics.Effect.Tac Prims.unit) -> p: Type -> Type
Prims.Tot
[ "total" ]
[]
[ "Prims.unit" ]
[]
false
false
false
false
true
let with_tactic _ p =
p
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.table_neg_inv_precomp
val table_neg_inv_precomp (q: LSeq.lseq uint64 15) (is_negate: bool) : BE.table_inv_t U64 15ul 32ul
val table_neg_inv_precomp (q: LSeq.lseq uint64 15) (is_negate: bool) : BE.table_inv_t U64 15ul 32ul
let table_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j)
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 72, "end_line": 59, "start_col": 0, "start_line": 54 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q) inline_for_extraction noextract let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
q: Lib.Sequence.lseq Lib.IntTypes.uint64 15 -> is_negate: Prims.bool -> Hacl.Impl.Exponentiation.table_inv_t Lib.IntTypes.U64 15ul 32ul
Prims.Tot
[ "total" ]
[]
[ "Lib.Sequence.lseq", "Lib.IntTypes.uint64", "Prims.bool", "Lib.IntTypes.uint_t", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "Lib.IntTypes.v", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "FStar.UInt32.__uint_to_t", "Lib.IntTypes.op_Star_Bang", "Prims.l_and", "Prims.eq2", "Spec.K256.PointOps.proj_point", "Hacl.Impl.K256.Point.point_eval_lseq", "Hacl.Spec.K256.GLV.point_negate_cond", "Prims.l_Forall", "Prims.nat", "Prims.b2t", "Prims.op_LessThan", "Hacl.Impl.PrecompTable.precomp_table_inv", "Hacl.Impl.K256.Group.mk_k256_concrete_ops", "Hacl.Impl.Exponentiation.table_inv_t" ]
[]
false
false
false
false
false
let table_neg_inv_precomp (q: LSeq.lseq uint64 15) (is_negate: bool) : BE.table_inv_t U64 15ul 32ul =
fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j: nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j)
false
FStar.Tactics.Effect.fst
FStar.Tactics.Effect.rewrite_with_tactic
val rewrite_with_tactic (t:unit -> Tac unit) (#a:Type) (x:a) : a
val rewrite_with_tactic (t:unit -> Tac unit) (#a:Type) (x:a) : a
let rewrite_with_tactic _ p = p
{ "file_name": "ulib/FStar.Tactics.Effect.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }
{ "end_col": 31, "end_line": 32, "start_col": 0, "start_line": 32 }
(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. *) module FStar.Tactics.Effect open FStar.Stubs.Reflection.Types open FStar.Stubs.Tactics.Types open FStar.Stubs.Tactics.Result /// This admit is to typecheck the bind implementation when the /// interface is interleaved #push-options "--admit_smt_queries true" let tac_bind_interleave_begin = () #pop-options let tac_bind_interleave_end = () let with_tactic _ p = p
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Stubs.Tactics.Types.fsti.checked", "FStar.Stubs.Tactics.Result.fsti.checked", "FStar.Stubs.Reflection.Types.fsti.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "FStar.Tactics.Effect.fst" }
[ { "abbrev": false, "full_module": "FStar.Stubs.Tactics.Result", "short_module": null }, { "abbrev": false, "full_module": "FStar.Stubs.Tactics.Types", "short_module": null }, { "abbrev": false, "full_module": "FStar.Stubs.Reflection.Types", "short_module": null }, { "abbrev": false, "full_module": "FStar.Monotonic.Pure", "short_module": null }, { "abbrev": false, "full_module": "FStar.Tactics", "short_module": null }, { "abbrev": false, "full_module": "FStar.Tactics", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
t: (_: Prims.unit -> FStar.Tactics.Effect.Tac Prims.unit) -> x: a -> a
Prims.Tot
[ "total" ]
[]
[ "Prims.unit" ]
[]
false
false
false
false
false
let rewrite_with_tactic _ p =
p
false
Spec.FFDHE.fst
Spec.FFDHE.ffdhe_p8192
val ffdhe_p8192:lseq pub_uint8 1024
val ffdhe_p8192:lseq pub_uint8 1024
let ffdhe_p8192: lseq pub_uint8 1024 = of_list list_ffdhe_p8192
{ "file_name": "specs/Spec.FFDHE.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 63, "end_line": 474, "start_col": 0, "start_line": 474 }
module Spec.FFDHE open FStar.Mul open Lib.IntTypes open Lib.Sequence open Lib.ByteSequence #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" (** https://tools.ietf.org/html/rfc7919#appendix-A *) noeq type ffdhe_params_t = | Mk_ffdhe_params: ffdhe_p_len:size_nat -> ffdhe_p:lseq pub_uint8 ffdhe_p_len -> ffdhe_g_len:size_nat -> ffdhe_g:lseq pub_uint8 ffdhe_g_len -> ffdhe_params_t [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_g2: List.Tot.llist pub_uint8 1 = [@inline_let] let l = [ 0x02uy ] in assert_norm (List.Tot.length l == 1); l let ffdhe_g2: lseq pub_uint8 1 = of_list list_ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p2048: List.Tot.llist pub_uint8 256 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x28uy; 0x5Cuy; 0x97uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 256); l let ffdhe_p2048: lseq pub_uint8 256 = of_list list_ffdhe_p2048 // The estimated symmetric-equivalent strength of this group is 103 bits. let ffdhe_params_2048 : ffdhe_params_t = Mk_ffdhe_params 256 ffdhe_p2048 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p3072: List.Tot.llist pub_uint8 384 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0xC6uy; 0x2Euy; 0x37uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 384); l let ffdhe_p3072: lseq pub_uint8 384 = of_list list_ffdhe_p3072 // The estimated symmetric-equivalent strength of this group is 125 bits. let ffdhe_params_3072 : ffdhe_params_t = Mk_ffdhe_params 384 ffdhe_p3072 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p4096: List.Tot.llist pub_uint8 512 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x65uy; 0x5Fuy; 0x6Auy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 512); l let ffdhe_p4096: lseq pub_uint8 512 = of_list list_ffdhe_p4096 // The estimated symmetric-equivalent strength of this group is 150 bits. let ffdhe_params_4096 : ffdhe_params_t = Mk_ffdhe_params 512 ffdhe_p4096 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p6144: List.Tot.llist pub_uint8 768 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x0Duy; 0xD9uy; 0x02uy; 0x0Buy; 0xFDuy; 0x64uy; 0xB6uy; 0x45uy; 0x03uy; 0x6Cuy; 0x7Auy; 0x4Euy; 0x67uy; 0x7Duy; 0x2Cuy; 0x38uy; 0x53uy; 0x2Auy; 0x3Auy; 0x23uy; 0xBAuy; 0x44uy; 0x42uy; 0xCAuy; 0xF5uy; 0x3Euy; 0xA6uy; 0x3Buy; 0xB4uy; 0x54uy; 0x32uy; 0x9Buy; 0x76uy; 0x24uy; 0xC8uy; 0x91uy; 0x7Buy; 0xDDuy; 0x64uy; 0xB1uy; 0xC0uy; 0xFDuy; 0x4Cuy; 0xB3uy; 0x8Euy; 0x8Cuy; 0x33uy; 0x4Cuy; 0x70uy; 0x1Cuy; 0x3Auy; 0xCDuy; 0xADuy; 0x06uy; 0x57uy; 0xFCuy; 0xCFuy; 0xECuy; 0x71uy; 0x9Buy; 0x1Fuy; 0x5Cuy; 0x3Euy; 0x4Euy; 0x46uy; 0x04uy; 0x1Fuy; 0x38uy; 0x81uy; 0x47uy; 0xFBuy; 0x4Cuy; 0xFDuy; 0xB4uy; 0x77uy; 0xA5uy; 0x24uy; 0x71uy; 0xF7uy; 0xA9uy; 0xA9uy; 0x69uy; 0x10uy; 0xB8uy; 0x55uy; 0x32uy; 0x2Euy; 0xDBuy; 0x63uy; 0x40uy; 0xD8uy; 0xA0uy; 0x0Euy; 0xF0uy; 0x92uy; 0x35uy; 0x05uy; 0x11uy; 0xE3uy; 0x0Auy; 0xBEuy; 0xC1uy; 0xFFuy; 0xF9uy; 0xE3uy; 0xA2uy; 0x6Euy; 0x7Fuy; 0xB2uy; 0x9Fuy; 0x8Cuy; 0x18uy; 0x30uy; 0x23uy; 0xC3uy; 0x58uy; 0x7Euy; 0x38uy; 0xDAuy; 0x00uy; 0x77uy; 0xD9uy; 0xB4uy; 0x76uy; 0x3Euy; 0x4Euy; 0x4Buy; 0x94uy; 0xB2uy; 0xBBuy; 0xC1uy; 0x94uy; 0xC6uy; 0x65uy; 0x1Euy; 0x77uy; 0xCAuy; 0xF9uy; 0x92uy; 0xEEuy; 0xAAuy; 0xC0uy; 0x23uy; 0x2Auy; 0x28uy; 0x1Buy; 0xF6uy; 0xB3uy; 0xA7uy; 0x39uy; 0xC1uy; 0x22uy; 0x61uy; 0x16uy; 0x82uy; 0x0Auy; 0xE8uy; 0xDBuy; 0x58uy; 0x47uy; 0xA6uy; 0x7Cuy; 0xBEuy; 0xF9uy; 0xC9uy; 0x09uy; 0x1Buy; 0x46uy; 0x2Duy; 0x53uy; 0x8Cuy; 0xD7uy; 0x2Buy; 0x03uy; 0x74uy; 0x6Auy; 0xE7uy; 0x7Fuy; 0x5Euy; 0x62uy; 0x29uy; 0x2Cuy; 0x31uy; 0x15uy; 0x62uy; 0xA8uy; 0x46uy; 0x50uy; 0x5Duy; 0xC8uy; 0x2Duy; 0xB8uy; 0x54uy; 0x33uy; 0x8Auy; 0xE4uy; 0x9Fuy; 0x52uy; 0x35uy; 0xC9uy; 0x5Buy; 0x91uy; 0x17uy; 0x8Cuy; 0xCFuy; 0x2Duy; 0xD5uy; 0xCAuy; 0xCEuy; 0xF4uy; 0x03uy; 0xECuy; 0x9Duy; 0x18uy; 0x10uy; 0xC6uy; 0x27uy; 0x2Buy; 0x04uy; 0x5Buy; 0x3Buy; 0x71uy; 0xF9uy; 0xDCuy; 0x6Buy; 0x80uy; 0xD6uy; 0x3Fuy; 0xDDuy; 0x4Auy; 0x8Euy; 0x9Auy; 0xDBuy; 0x1Euy; 0x69uy; 0x62uy; 0xA6uy; 0x95uy; 0x26uy; 0xD4uy; 0x31uy; 0x61uy; 0xC1uy; 0xA4uy; 0x1Duy; 0x57uy; 0x0Duy; 0x79uy; 0x38uy; 0xDAuy; 0xD4uy; 0xA4uy; 0x0Euy; 0x32uy; 0x9Cuy; 0xD0uy; 0xE4uy; 0x0Euy; 0x65uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 768); l let ffdhe_p6144: lseq pub_uint8 768 = of_list list_ffdhe_p6144 // The estimated symmetric-equivalent strength of this group is 175 bits. let ffdhe_params_6144 : ffdhe_params_t = Mk_ffdhe_params 768 ffdhe_p6144 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p8192: List.Tot.llist pub_uint8 1024 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x0Duy; 0xD9uy; 0x02uy; 0x0Buy; 0xFDuy; 0x64uy; 0xB6uy; 0x45uy; 0x03uy; 0x6Cuy; 0x7Auy; 0x4Euy; 0x67uy; 0x7Duy; 0x2Cuy; 0x38uy; 0x53uy; 0x2Auy; 0x3Auy; 0x23uy; 0xBAuy; 0x44uy; 0x42uy; 0xCAuy; 0xF5uy; 0x3Euy; 0xA6uy; 0x3Buy; 0xB4uy; 0x54uy; 0x32uy; 0x9Buy; 0x76uy; 0x24uy; 0xC8uy; 0x91uy; 0x7Buy; 0xDDuy; 0x64uy; 0xB1uy; 0xC0uy; 0xFDuy; 0x4Cuy; 0xB3uy; 0x8Euy; 0x8Cuy; 0x33uy; 0x4Cuy; 0x70uy; 0x1Cuy; 0x3Auy; 0xCDuy; 0xADuy; 0x06uy; 0x57uy; 0xFCuy; 0xCFuy; 0xECuy; 0x71uy; 0x9Buy; 0x1Fuy; 0x5Cuy; 0x3Euy; 0x4Euy; 0x46uy; 0x04uy; 0x1Fuy; 0x38uy; 0x81uy; 0x47uy; 0xFBuy; 0x4Cuy; 0xFDuy; 0xB4uy; 0x77uy; 0xA5uy; 0x24uy; 0x71uy; 0xF7uy; 0xA9uy; 0xA9uy; 0x69uy; 0x10uy; 0xB8uy; 0x55uy; 0x32uy; 0x2Euy; 0xDBuy; 0x63uy; 0x40uy; 0xD8uy; 0xA0uy; 0x0Euy; 0xF0uy; 0x92uy; 0x35uy; 0x05uy; 0x11uy; 0xE3uy; 0x0Auy; 0xBEuy; 0xC1uy; 0xFFuy; 0xF9uy; 0xE3uy; 0xA2uy; 0x6Euy; 0x7Fuy; 0xB2uy; 0x9Fuy; 0x8Cuy; 0x18uy; 0x30uy; 0x23uy; 0xC3uy; 0x58uy; 0x7Euy; 0x38uy; 0xDAuy; 0x00uy; 0x77uy; 0xD9uy; 0xB4uy; 0x76uy; 0x3Euy; 0x4Euy; 0x4Buy; 0x94uy; 0xB2uy; 0xBBuy; 0xC1uy; 0x94uy; 0xC6uy; 0x65uy; 0x1Euy; 0x77uy; 0xCAuy; 0xF9uy; 0x92uy; 0xEEuy; 0xAAuy; 0xC0uy; 0x23uy; 0x2Auy; 0x28uy; 0x1Buy; 0xF6uy; 0xB3uy; 0xA7uy; 0x39uy; 0xC1uy; 0x22uy; 0x61uy; 0x16uy; 0x82uy; 0x0Auy; 0xE8uy; 0xDBuy; 0x58uy; 0x47uy; 0xA6uy; 0x7Cuy; 0xBEuy; 0xF9uy; 0xC9uy; 0x09uy; 0x1Buy; 0x46uy; 0x2Duy; 0x53uy; 0x8Cuy; 0xD7uy; 0x2Buy; 0x03uy; 0x74uy; 0x6Auy; 0xE7uy; 0x7Fuy; 0x5Euy; 0x62uy; 0x29uy; 0x2Cuy; 0x31uy; 0x15uy; 0x62uy; 0xA8uy; 0x46uy; 0x50uy; 0x5Duy; 0xC8uy; 0x2Duy; 0xB8uy; 0x54uy; 0x33uy; 0x8Auy; 0xE4uy; 0x9Fuy; 0x52uy; 0x35uy; 0xC9uy; 0x5Buy; 0x91uy; 0x17uy; 0x8Cuy; 0xCFuy; 0x2Duy; 0xD5uy; 0xCAuy; 0xCEuy; 0xF4uy; 0x03uy; 0xECuy; 0x9Duy; 0x18uy; 0x10uy; 0xC6uy; 0x27uy; 0x2Buy; 0x04uy; 0x5Buy; 0x3Buy; 0x71uy; 0xF9uy; 0xDCuy; 0x6Buy; 0x80uy; 0xD6uy; 0x3Fuy; 0xDDuy; 0x4Auy; 0x8Euy; 0x9Auy; 0xDBuy; 0x1Euy; 0x69uy; 0x62uy; 0xA6uy; 0x95uy; 0x26uy; 0xD4uy; 0x31uy; 0x61uy; 0xC1uy; 0xA4uy; 0x1Duy; 0x57uy; 0x0Duy; 0x79uy; 0x38uy; 0xDAuy; 0xD4uy; 0xA4uy; 0x0Euy; 0x32uy; 0x9Cuy; 0xCFuy; 0xF4uy; 0x6Auy; 0xAAuy; 0x36uy; 0xADuy; 0x00uy; 0x4Cuy; 0xF6uy; 0x00uy; 0xC8uy; 0x38uy; 0x1Euy; 0x42uy; 0x5Auy; 0x31uy; 0xD9uy; 0x51uy; 0xAEuy; 0x64uy; 0xFDuy; 0xB2uy; 0x3Fuy; 0xCEuy; 0xC9uy; 0x50uy; 0x9Duy; 0x43uy; 0x68uy; 0x7Fuy; 0xEBuy; 0x69uy; 0xEDuy; 0xD1uy; 0xCCuy; 0x5Euy; 0x0Buy; 0x8Cuy; 0xC3uy; 0xBDuy; 0xF6uy; 0x4Buy; 0x10uy; 0xEFuy; 0x86uy; 0xB6uy; 0x31uy; 0x42uy; 0xA3uy; 0xABuy; 0x88uy; 0x29uy; 0x55uy; 0x5Buy; 0x2Fuy; 0x74uy; 0x7Cuy; 0x93uy; 0x26uy; 0x65uy; 0xCBuy; 0x2Cuy; 0x0Fuy; 0x1Cuy; 0xC0uy; 0x1Buy; 0xD7uy; 0x02uy; 0x29uy; 0x38uy; 0x88uy; 0x39uy; 0xD2uy; 0xAFuy; 0x05uy; 0xE4uy; 0x54uy; 0x50uy; 0x4Auy; 0xC7uy; 0x8Buy; 0x75uy; 0x82uy; 0x82uy; 0x28uy; 0x46uy; 0xC0uy; 0xBAuy; 0x35uy; 0xC3uy; 0x5Fuy; 0x5Cuy; 0x59uy; 0x16uy; 0x0Cuy; 0xC0uy; 0x46uy; 0xFDuy; 0x82uy; 0x51uy; 0x54uy; 0x1Fuy; 0xC6uy; 0x8Cuy; 0x9Cuy; 0x86uy; 0xB0uy; 0x22uy; 0xBBuy; 0x70uy; 0x99uy; 0x87uy; 0x6Auy; 0x46uy; 0x0Euy; 0x74uy; 0x51uy; 0xA8uy; 0xA9uy; 0x31uy; 0x09uy; 0x70uy; 0x3Fuy; 0xEEuy; 0x1Cuy; 0x21uy; 0x7Euy; 0x6Cuy; 0x38uy; 0x26uy; 0xE5uy; 0x2Cuy; 0x51uy; 0xAAuy; 0x69uy; 0x1Euy; 0x0Euy; 0x42uy; 0x3Cuy; 0xFCuy; 0x99uy; 0xE9uy; 0xE3uy; 0x16uy; 0x50uy; 0xC1uy; 0x21uy; 0x7Buy; 0x62uy; 0x48uy; 0x16uy; 0xCDuy; 0xADuy; 0x9Auy; 0x95uy; 0xF9uy; 0xD5uy; 0xB8uy; 0x01uy; 0x94uy; 0x88uy; 0xD9uy; 0xC0uy; 0xA0uy; 0xA1uy; 0xFEuy; 0x30uy; 0x75uy; 0xA5uy; 0x77uy; 0xE2uy; 0x31uy; 0x83uy; 0xF8uy; 0x1Duy; 0x4Auy; 0x3Fuy; 0x2Fuy; 0xA4uy; 0x57uy; 0x1Euy; 0xFCuy; 0x8Cuy; 0xE0uy; 0xBAuy; 0x8Auy; 0x4Fuy; 0xE8uy; 0xB6uy; 0x85uy; 0x5Duy; 0xFEuy; 0x72uy; 0xB0uy; 0xA6uy; 0x6Euy; 0xDEuy; 0xD2uy; 0xFBuy; 0xABuy; 0xFBuy; 0xE5uy; 0x8Auy; 0x30uy; 0xFAuy; 0xFAuy; 0xBEuy; 0x1Cuy; 0x5Duy; 0x71uy; 0xA8uy; 0x7Euy; 0x2Fuy; 0x74uy; 0x1Euy; 0xF8uy; 0xC1uy; 0xFEuy; 0x86uy; 0xFEuy; 0xA6uy; 0xBBuy; 0xFDuy; 0xE5uy; 0x30uy; 0x67uy; 0x7Fuy; 0x0Duy; 0x97uy; 0xD1uy; 0x1Duy; 0x49uy; 0xF7uy; 0xA8uy; 0x44uy; 0x3Duy; 0x08uy; 0x22uy; 0xE5uy; 0x06uy; 0xA9uy; 0xF4uy; 0x61uy; 0x4Euy; 0x01uy; 0x1Euy; 0x2Auy; 0x94uy; 0x83uy; 0x8Fuy; 0xF8uy; 0x8Cuy; 0xD6uy; 0x8Cuy; 0x8Buy; 0xB7uy; 0xC5uy; 0xC6uy; 0x42uy; 0x4Cuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 1024); l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.NatMod.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.List.Tot.fst.checked" ], "interface_file": false, "source_file": "Spec.FFDHE.fst" }
[ { "abbrev": false, "full_module": "Lib.ByteSequence", "short_module": null }, { "abbrev": false, "full_module": "Lib.Sequence", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Spec", "short_module": null }, { "abbrev": false, "full_module": "Spec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
Lib.Sequence.lseq (Lib.IntTypes.int_t Lib.IntTypes.U8 Lib.IntTypes.PUB) 1024
Prims.Tot
[ "total" ]
[]
[ "Lib.Sequence.of_list", "Lib.IntTypes.int_t", "Lib.IntTypes.U8", "Lib.IntTypes.PUB", "Spec.FFDHE.list_ffdhe_p8192" ]
[]
false
false
false
false
false
let ffdhe_p8192:lseq pub_uint8 1024 =
of_list list_ffdhe_p8192
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag0_len
val tag0_len:(x: UInt32.t{UInt32.v x = B.length tag0})
val tag0_len:(x: UInt32.t{UInt32.v x = B.length tag0})
let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 29, "start_col": 22, "start_line": 28 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag0}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag0_len:(x: UInt32.t{UInt32.v x = B.length tag0}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input0_len
val input0_len:(x: UInt32.t{UInt32.v x = B.length input0})
val input0_len:(x: UInt32.t{UInt32.v x = B.length input0})
let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 13, "start_col": 22, "start_line": 12 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input0}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input0_len:(x: UInt32.t{UInt32.v x = B.length input0}) =
34ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key0_len
val key0_len:(x: UInt32.t{UInt32.v x = B.length key0})
val key0_len:(x: UInt32.t{UInt32.v x = B.length key0})
let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 21, "start_col": 22, "start_line": 20 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key0}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key0_len:(x: UInt32.t{UInt32.v x = B.length key0}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input1
val input1:(b: B.buffer UInt8.t {B.length b = 2 /\ B.recallable b})
val input1:(b: B.buffer UInt8.t {B.length b = 2 /\ B.recallable b})
let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 34, "start_col": 0, "start_line": 31 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 2 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input1:(b: B.buffer UInt8.t {B.length b = 2 /\ B.recallable b}) =
[@@ inline_let ]let l = [0xf3uy; 0xf6uy] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag0
val tag0:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag0:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 26, "start_col": 0, "start_line": 23 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag0:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input1_len
val input1_len:(x: UInt32.t{UInt32.v x = B.length input1})
val input1_len:(x: UInt32.t{UInt32.v x = B.length input1})
let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 5, "end_line": 37, "start_col": 22, "start_line": 36 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input1}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input1_len:(x: UInt32.t{UInt32.v x = B.length input1}) =
2ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag1
val tag1:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag1:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 50, "start_col": 0, "start_line": 47 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag1:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key0
val key0:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key0:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 18, "start_col": 0, "start_line": 15 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key0:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag1_len
val tag1_len:(x: UInt32.t{UInt32.v x = B.length tag1})
val tag1_len:(x: UInt32.t{UInt32.v x = B.length tag1})
let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 53, "start_col": 22, "start_line": 52 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag1}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag1_len:(x: UInt32.t{UInt32.v x = B.length tag1}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input2
val input2:(b: B.buffer UInt8.t {B.length b = 0 /\ B.recallable b})
val input2:(b: B.buffer UInt8.t {B.length b = 0 /\ B.recallable b})
let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 58, "start_col": 0, "start_line": 55 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 0 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Nil" ]
[]
false
false
false
false
false
let input2:(b: B.buffer UInt8.t {B.length b = 0 /\ B.recallable b}) =
[@@ inline_let ]let l = [] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key1
val key1:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key1:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 42, "start_col": 0, "start_line": 39 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key1:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key1_len
val key1_len:(x: UInt32.t{UInt32.v x = B.length key1})
val key1_len:(x: UInt32.t{UInt32.v x = B.length key1})
let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 45, "start_col": 22, "start_line": 44 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key1}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key1_len:(x: UInt32.t{UInt32.v x = B.length key1}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input0
val input0:(b: B.buffer UInt8.t {B.length b = 34 /\ B.recallable b})
val input0:(b: B.buffer UInt8.t {B.length b = 34 /\ B.recallable b})
let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 10, "start_col": 0, "start_line": 7 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0"
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 34 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input0:(b: B.buffer UInt8.t {B.length b = 34 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input2_len
val input2_len:(x: UInt32.t{UInt32.v x = B.length input2})
val input2_len:(x: UInt32.t{UInt32.v x = B.length input2})
let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 5, "end_line": 61, "start_col": 22, "start_line": 60 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input2}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input2_len:(x: UInt32.t{UInt32.v x = B.length input2}) =
0ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key2_len
val key2_len:(x: UInt32.t{UInt32.v x = B.length key2})
val key2_len:(x: UInt32.t{UInt32.v x = B.length key2})
let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 69, "start_col": 22, "start_line": 68 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key2}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key2_len:(x: UInt32.t{UInt32.v x = B.length key2}) =
32ul
false
Steel.SpinLock.fst
Steel.SpinLock.s_release
val s_release (#p:vprop) (#pred:normal (t_of p) -> prop) (l:s_lock p pred) : Steel unit p (fun _ -> emp) (requires fun h -> pred (h p)) (ensures fun _ _ _ -> True)
val s_release (#p:vprop) (#pred:normal (t_of p) -> prop) (l:s_lock p pred) : Steel unit p (fun _ -> emp) (requires fun h -> pred (h p)) (ensures fun _ _ _ -> True)
let s_release #p #pred l = intro_vrefine p pred; release l
{ "file_name": "lib/steel/Steel.SpinLock.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }
{ "end_col": 11, "end_line": 127, "start_col": 0, "start_line": 125 }
(* Copyright 2020 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. *) module Steel.SpinLock open FStar.Ghost open Steel.Effect.Atomic open Steel.Effect open Steel.Reference open Steel.FractionalPermission #set-options "--ide_id_info_off --fuel 0 --ifuel 0" let available = false let locked = true let lockinv (p:vprop) (r:ref bool) : vprop = h_exists (fun b -> pts_to r full_perm b `star` (if b then emp else p)) noeq type lock (p:vprop) = | Lock: r: ref bool -> i: inv (lockinv p r) -> lock p val intro_lockinv_available (#uses:inames) (p:vprop) (r:ref bool) : SteelGhostT unit uses (pts_to r full_perm available `star` p) (fun _ -> lockinv p r) val intro_lockinv_locked (#uses:inames) (p:vprop) (r:ref bool) : SteelGhostT unit uses (pts_to r full_perm locked) (fun _ -> lockinv p r) let intro_lockinv_available #uses p r = intro_exists false (fun (b: bool) -> pts_to r full_perm b `star` (if b then emp else p) ) let intro_lockinv_locked #uses p r = intro_exists true (fun b -> pts_to r full_perm b `star` (if b then emp else p)) let new_lock (p:vprop) : SteelT (lock p) p (fun _ -> emp) = let r = alloc_pt available in intro_lockinv_available p r; let i:inv (lockinv p r) = new_invariant (lockinv p r) in return (Lock r i) val acquire_core (#p:vprop) (#u:inames) (r:ref bool) (i:inv (lockinv p r)) : SteelAtomicT bool u (lockinv p r `star` emp) (fun b -> lockinv p r `star` (if b then p else emp)) let acquire_core #p #u r i = let ghost = witness_exists () in let res = cas_pt_bool r ghost available locked in (* Not sure we can avoid calling an SMT here. Better force the manual call? *) rewrite_slprop (if (Ghost.reveal ghost) then emp else p) (if res then p else emp) (fun _ -> ()); rewrite_slprop (if res then pts_to r full_perm (Ghost.hide locked) else pts_to r full_perm ghost) (pts_to r full_perm locked) (fun _ -> ()); intro_lockinv_locked p r; return res let rec acquire #p l = let r:ref bool = l.r in let i: inv (lockinv p r) = l.i in let b = with_invariant i (fun _ -> acquire_core r i) in if b then ( rewrite_slprop (if b then p else emp) p (fun _ -> ()); noop () ) else ( rewrite_slprop (if b then p else emp) emp (fun _ -> ()); acquire l ) val release_core (#p:vprop) (#u:inames) (r:ref bool) (i:inv (lockinv p r)) : SteelAtomicT bool u (lockinv p r `star` p) (fun b -> lockinv p r `star` (if b then emp else p)) let release_core #p #u r i = let v = witness_exists () in let res = cas_pt_bool r v locked available in (* Not sure we can avoid calling an SMT here. Better force the manual call? *) rewrite_slprop (if (Ghost.reveal v) then emp else p) (if res then emp else p) (fun _ -> ()); rewrite_slprop (if res then pts_to r full_perm (Ghost.hide available) else pts_to r full_perm v) (pts_to r full_perm available) (fun _ -> ()); intro_lockinv_available p r; return res let release (#p:vprop) (l:lock p) = let r:ref bool = l.r in let i: inv (lockinv p r) = l.i in let b = with_invariant i (fun _ -> release_core r i) in drop (if b then emp else p) let s_lock p pred = lock (p `vrefine` pred) let new_s_lock p pred = intro_vrefine p pred; new_lock (p `vrefine` pred) let s_acquire #p #pred l = acquire l; elim_vrefine p pred
{ "checked_file": "/", "dependencies": [ "Steel.Reference.fsti.checked", "Steel.FractionalPermission.fst.checked", "Steel.Effect.Atomic.fsti.checked", "Steel.Effect.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Steel.SpinLock.fst" }
[ { "abbrev": false, "full_module": "Steel.FractionalPermission", "short_module": null }, { "abbrev": false, "full_module": "Steel.Reference", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect.Atomic", "short_module": null }, { "abbrev": false, "full_module": "FStar.Ghost", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect", "short_module": null }, { "abbrev": false, "full_module": "Steel.Memory", "short_module": null }, { "abbrev": false, "full_module": "Steel", "short_module": null }, { "abbrev": false, "full_module": "Steel", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
l: Steel.SpinLock.s_lock p pred -> Steel.Effect.Steel Prims.unit
Steel.Effect.Steel
[]
[]
[ "Steel.Effect.Common.vprop", "Steel.Effect.Common.normal", "Steel.Effect.Common.t_of", "Prims.prop", "Steel.SpinLock.s_lock", "Steel.SpinLock.release", "Steel.Effect.Common.vrefine", "Prims.unit", "Steel.Effect.Atomic.intro_vrefine", "FStar.Ghost.hide", "FStar.Set.set", "Steel.Memory.iname", "FStar.Set.empty" ]
[]
false
true
false
false
false
let s_release #p #pred l =
intro_vrefine p pred; release l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key2
val key2:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key2:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 66, "start_col": 0, "start_line": 63 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key2:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.lprecomp_get_vartime_neg
val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate)
val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate)
let lprecomp_get_vartime_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // -[r_small]Q = [r_small](-Q) SGL.aff_point_negate_cond_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h2 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (point_eval_lseq q) is_negate)) (v r_small))
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 88, "end_line": 91, "start_col": 0, "start_line": 70 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q) inline_for_extraction noextract let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len inline_for_extraction noextract let table_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]Q or [r_small](-Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate)
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
q: FStar.Ghost.erased (Lib.Sequence.lseq Lib.IntTypes.uint64 15) {Hacl.Impl.K256.Point.point_inv_lseq (FStar.Ghost.reveal q)} -> is_negate: Prims.bool -> Hacl.Impl.Exponentiation.pow_a_to_small_b_st Lib.IntTypes.U64 15ul 0ul Hacl.Impl.K256.Group.mk_k256_concrete_ops 5ul 32ul (Hacl.Impl.K256.GLV.table_neg_inv_precomp (FStar.Ghost.reveal q) is_negate)
Prims.Tot
[ "total" ]
[]
[ "FStar.Ghost.erased", "Lib.Sequence.lseq", "Lib.IntTypes.uint64", "Hacl.Impl.K256.Point.point_inv_lseq", "FStar.Ghost.reveal", "Prims.bool", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint_t", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "FStar.UInt32.__uint_to_t", "Lib.IntTypes.v", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "Lib.Buffer.clbuffer", "Lib.IntTypes.op_Star_Bang", "Prims.b2t", "Prims.op_LessThan", "Prims.pow2", "Prims._assert", "Prims.eq2", "Spec.K256.PointOps.aff_point", "Spec.K256.PointOps.to_aff_point", "Hacl.Impl.K256.Point.point_eval", "Lib.Exponentiation.Definition.pow", "Spec.K256.mk_k256_comm_monoid", "Hacl.Spec.K256.GLV.point_negate_cond", "Hacl.Impl.K256.Point.point_eval_lseq", "Prims.unit", "Hacl.Spec.K256.GLV.Lemmas.aff_point_negate_cond_pow_lemma", "Hacl.Spec.K256.GLV.aff_point_negate_cond", "Spec.K256.Lemmas.to_aff_point_negate_lemma", "Spec.K256.PointOps.proj_point", "FStar.Monotonic.HyperStack.mem", "FStar.HyperStack.ST.get", "Hacl.Impl.K256.Point.point_negate_conditional_vartime", "Spec.Exponentiation.pow", "Spec.K256.mk_k256_concrete_ops", "Spec.Exponentiation.pow_lemma", "Hacl.Impl.Exponentiation.lprecomp_get_vartime", "Hacl.Impl.K256.Group.mk_k256_concrete_ops", "Hacl.Impl.K256.GLV.table_neg_inv_precomp", "Lib.Buffer.as_seq", "Lib.Buffer.CONST" ]
[]
false
false
false
false
false
let lprecomp_get_vartime_neg q is_negate ctx lambda_q table r_small res =
let h0 = ST.get () in assert (table_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); SGL.aff_point_negate_cond_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h2 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (point_eval_lseq q) is_negate)) (v r_small))
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag2
val tag2:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag2:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 74, "start_col": 0, "start_line": 71 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag2:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key3_len
val key3_len:(x: UInt32.t{UInt32.v x = B.length key3})
val key3_len:(x: UInt32.t{UInt32.v x = B.length key3})
let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 93, "start_col": 22, "start_line": 92 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key3}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key3_len:(x: UInt32.t{UInt32.v x = B.length key3}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag2_len
val tag2_len:(x: UInt32.t{UInt32.v x = B.length tag2})
val tag2_len:(x: UInt32.t{UInt32.v x = B.length tag2})
let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 77, "start_col": 22, "start_line": 76 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag2}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag2_len:(x: UInt32.t{UInt32.v x = B.length tag2}) =
16ul
false
Spec.FFDHE.fst
Spec.FFDHE.list_ffdhe_p8192
val list_ffdhe_p8192:List.Tot.llist pub_uint8 1024
val list_ffdhe_p8192:List.Tot.llist pub_uint8 1024
let list_ffdhe_p8192: List.Tot.llist pub_uint8 1024 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x0Duy; 0xD9uy; 0x02uy; 0x0Buy; 0xFDuy; 0x64uy; 0xB6uy; 0x45uy; 0x03uy; 0x6Cuy; 0x7Auy; 0x4Euy; 0x67uy; 0x7Duy; 0x2Cuy; 0x38uy; 0x53uy; 0x2Auy; 0x3Auy; 0x23uy; 0xBAuy; 0x44uy; 0x42uy; 0xCAuy; 0xF5uy; 0x3Euy; 0xA6uy; 0x3Buy; 0xB4uy; 0x54uy; 0x32uy; 0x9Buy; 0x76uy; 0x24uy; 0xC8uy; 0x91uy; 0x7Buy; 0xDDuy; 0x64uy; 0xB1uy; 0xC0uy; 0xFDuy; 0x4Cuy; 0xB3uy; 0x8Euy; 0x8Cuy; 0x33uy; 0x4Cuy; 0x70uy; 0x1Cuy; 0x3Auy; 0xCDuy; 0xADuy; 0x06uy; 0x57uy; 0xFCuy; 0xCFuy; 0xECuy; 0x71uy; 0x9Buy; 0x1Fuy; 0x5Cuy; 0x3Euy; 0x4Euy; 0x46uy; 0x04uy; 0x1Fuy; 0x38uy; 0x81uy; 0x47uy; 0xFBuy; 0x4Cuy; 0xFDuy; 0xB4uy; 0x77uy; 0xA5uy; 0x24uy; 0x71uy; 0xF7uy; 0xA9uy; 0xA9uy; 0x69uy; 0x10uy; 0xB8uy; 0x55uy; 0x32uy; 0x2Euy; 0xDBuy; 0x63uy; 0x40uy; 0xD8uy; 0xA0uy; 0x0Euy; 0xF0uy; 0x92uy; 0x35uy; 0x05uy; 0x11uy; 0xE3uy; 0x0Auy; 0xBEuy; 0xC1uy; 0xFFuy; 0xF9uy; 0xE3uy; 0xA2uy; 0x6Euy; 0x7Fuy; 0xB2uy; 0x9Fuy; 0x8Cuy; 0x18uy; 0x30uy; 0x23uy; 0xC3uy; 0x58uy; 0x7Euy; 0x38uy; 0xDAuy; 0x00uy; 0x77uy; 0xD9uy; 0xB4uy; 0x76uy; 0x3Euy; 0x4Euy; 0x4Buy; 0x94uy; 0xB2uy; 0xBBuy; 0xC1uy; 0x94uy; 0xC6uy; 0x65uy; 0x1Euy; 0x77uy; 0xCAuy; 0xF9uy; 0x92uy; 0xEEuy; 0xAAuy; 0xC0uy; 0x23uy; 0x2Auy; 0x28uy; 0x1Buy; 0xF6uy; 0xB3uy; 0xA7uy; 0x39uy; 0xC1uy; 0x22uy; 0x61uy; 0x16uy; 0x82uy; 0x0Auy; 0xE8uy; 0xDBuy; 0x58uy; 0x47uy; 0xA6uy; 0x7Cuy; 0xBEuy; 0xF9uy; 0xC9uy; 0x09uy; 0x1Buy; 0x46uy; 0x2Duy; 0x53uy; 0x8Cuy; 0xD7uy; 0x2Buy; 0x03uy; 0x74uy; 0x6Auy; 0xE7uy; 0x7Fuy; 0x5Euy; 0x62uy; 0x29uy; 0x2Cuy; 0x31uy; 0x15uy; 0x62uy; 0xA8uy; 0x46uy; 0x50uy; 0x5Duy; 0xC8uy; 0x2Duy; 0xB8uy; 0x54uy; 0x33uy; 0x8Auy; 0xE4uy; 0x9Fuy; 0x52uy; 0x35uy; 0xC9uy; 0x5Buy; 0x91uy; 0x17uy; 0x8Cuy; 0xCFuy; 0x2Duy; 0xD5uy; 0xCAuy; 0xCEuy; 0xF4uy; 0x03uy; 0xECuy; 0x9Duy; 0x18uy; 0x10uy; 0xC6uy; 0x27uy; 0x2Buy; 0x04uy; 0x5Buy; 0x3Buy; 0x71uy; 0xF9uy; 0xDCuy; 0x6Buy; 0x80uy; 0xD6uy; 0x3Fuy; 0xDDuy; 0x4Auy; 0x8Euy; 0x9Auy; 0xDBuy; 0x1Euy; 0x69uy; 0x62uy; 0xA6uy; 0x95uy; 0x26uy; 0xD4uy; 0x31uy; 0x61uy; 0xC1uy; 0xA4uy; 0x1Duy; 0x57uy; 0x0Duy; 0x79uy; 0x38uy; 0xDAuy; 0xD4uy; 0xA4uy; 0x0Euy; 0x32uy; 0x9Cuy; 0xCFuy; 0xF4uy; 0x6Auy; 0xAAuy; 0x36uy; 0xADuy; 0x00uy; 0x4Cuy; 0xF6uy; 0x00uy; 0xC8uy; 0x38uy; 0x1Euy; 0x42uy; 0x5Auy; 0x31uy; 0xD9uy; 0x51uy; 0xAEuy; 0x64uy; 0xFDuy; 0xB2uy; 0x3Fuy; 0xCEuy; 0xC9uy; 0x50uy; 0x9Duy; 0x43uy; 0x68uy; 0x7Fuy; 0xEBuy; 0x69uy; 0xEDuy; 0xD1uy; 0xCCuy; 0x5Euy; 0x0Buy; 0x8Cuy; 0xC3uy; 0xBDuy; 0xF6uy; 0x4Buy; 0x10uy; 0xEFuy; 0x86uy; 0xB6uy; 0x31uy; 0x42uy; 0xA3uy; 0xABuy; 0x88uy; 0x29uy; 0x55uy; 0x5Buy; 0x2Fuy; 0x74uy; 0x7Cuy; 0x93uy; 0x26uy; 0x65uy; 0xCBuy; 0x2Cuy; 0x0Fuy; 0x1Cuy; 0xC0uy; 0x1Buy; 0xD7uy; 0x02uy; 0x29uy; 0x38uy; 0x88uy; 0x39uy; 0xD2uy; 0xAFuy; 0x05uy; 0xE4uy; 0x54uy; 0x50uy; 0x4Auy; 0xC7uy; 0x8Buy; 0x75uy; 0x82uy; 0x82uy; 0x28uy; 0x46uy; 0xC0uy; 0xBAuy; 0x35uy; 0xC3uy; 0x5Fuy; 0x5Cuy; 0x59uy; 0x16uy; 0x0Cuy; 0xC0uy; 0x46uy; 0xFDuy; 0x82uy; 0x51uy; 0x54uy; 0x1Fuy; 0xC6uy; 0x8Cuy; 0x9Cuy; 0x86uy; 0xB0uy; 0x22uy; 0xBBuy; 0x70uy; 0x99uy; 0x87uy; 0x6Auy; 0x46uy; 0x0Euy; 0x74uy; 0x51uy; 0xA8uy; 0xA9uy; 0x31uy; 0x09uy; 0x70uy; 0x3Fuy; 0xEEuy; 0x1Cuy; 0x21uy; 0x7Euy; 0x6Cuy; 0x38uy; 0x26uy; 0xE5uy; 0x2Cuy; 0x51uy; 0xAAuy; 0x69uy; 0x1Euy; 0x0Euy; 0x42uy; 0x3Cuy; 0xFCuy; 0x99uy; 0xE9uy; 0xE3uy; 0x16uy; 0x50uy; 0xC1uy; 0x21uy; 0x7Buy; 0x62uy; 0x48uy; 0x16uy; 0xCDuy; 0xADuy; 0x9Auy; 0x95uy; 0xF9uy; 0xD5uy; 0xB8uy; 0x01uy; 0x94uy; 0x88uy; 0xD9uy; 0xC0uy; 0xA0uy; 0xA1uy; 0xFEuy; 0x30uy; 0x75uy; 0xA5uy; 0x77uy; 0xE2uy; 0x31uy; 0x83uy; 0xF8uy; 0x1Duy; 0x4Auy; 0x3Fuy; 0x2Fuy; 0xA4uy; 0x57uy; 0x1Euy; 0xFCuy; 0x8Cuy; 0xE0uy; 0xBAuy; 0x8Auy; 0x4Fuy; 0xE8uy; 0xB6uy; 0x85uy; 0x5Duy; 0xFEuy; 0x72uy; 0xB0uy; 0xA6uy; 0x6Euy; 0xDEuy; 0xD2uy; 0xFBuy; 0xABuy; 0xFBuy; 0xE5uy; 0x8Auy; 0x30uy; 0xFAuy; 0xFAuy; 0xBEuy; 0x1Cuy; 0x5Duy; 0x71uy; 0xA8uy; 0x7Euy; 0x2Fuy; 0x74uy; 0x1Euy; 0xF8uy; 0xC1uy; 0xFEuy; 0x86uy; 0xFEuy; 0xA6uy; 0xBBuy; 0xFDuy; 0xE5uy; 0x30uy; 0x67uy; 0x7Fuy; 0x0Duy; 0x97uy; 0xD1uy; 0x1Duy; 0x49uy; 0xF7uy; 0xA8uy; 0x44uy; 0x3Duy; 0x08uy; 0x22uy; 0xE5uy; 0x06uy; 0xA9uy; 0xF4uy; 0x61uy; 0x4Euy; 0x01uy; 0x1Euy; 0x2Auy; 0x94uy; 0x83uy; 0x8Fuy; 0xF8uy; 0x8Cuy; 0xD6uy; 0x8Cuy; 0x8Buy; 0xB7uy; 0xC5uy; 0xC6uy; 0x42uy; 0x4Cuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 1024); l
{ "file_name": "specs/Spec.FFDHE.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 3, "end_line": 472, "start_col": 0, "start_line": 339 }
module Spec.FFDHE open FStar.Mul open Lib.IntTypes open Lib.Sequence open Lib.ByteSequence #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" (** https://tools.ietf.org/html/rfc7919#appendix-A *) noeq type ffdhe_params_t = | Mk_ffdhe_params: ffdhe_p_len:size_nat -> ffdhe_p:lseq pub_uint8 ffdhe_p_len -> ffdhe_g_len:size_nat -> ffdhe_g:lseq pub_uint8 ffdhe_g_len -> ffdhe_params_t [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_g2: List.Tot.llist pub_uint8 1 = [@inline_let] let l = [ 0x02uy ] in assert_norm (List.Tot.length l == 1); l let ffdhe_g2: lseq pub_uint8 1 = of_list list_ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p2048: List.Tot.llist pub_uint8 256 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x28uy; 0x5Cuy; 0x97uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 256); l let ffdhe_p2048: lseq pub_uint8 256 = of_list list_ffdhe_p2048 // The estimated symmetric-equivalent strength of this group is 103 bits. let ffdhe_params_2048 : ffdhe_params_t = Mk_ffdhe_params 256 ffdhe_p2048 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p3072: List.Tot.llist pub_uint8 384 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0xC6uy; 0x2Euy; 0x37uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 384); l let ffdhe_p3072: lseq pub_uint8 384 = of_list list_ffdhe_p3072 // The estimated symmetric-equivalent strength of this group is 125 bits. let ffdhe_params_3072 : ffdhe_params_t = Mk_ffdhe_params 384 ffdhe_p3072 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p4096: List.Tot.llist pub_uint8 512 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x65uy; 0x5Fuy; 0x6Auy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 512); l let ffdhe_p4096: lseq pub_uint8 512 = of_list list_ffdhe_p4096 // The estimated symmetric-equivalent strength of this group is 150 bits. let ffdhe_params_4096 : ffdhe_params_t = Mk_ffdhe_params 512 ffdhe_p4096 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p6144: List.Tot.llist pub_uint8 768 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x0Duy; 0xD9uy; 0x02uy; 0x0Buy; 0xFDuy; 0x64uy; 0xB6uy; 0x45uy; 0x03uy; 0x6Cuy; 0x7Auy; 0x4Euy; 0x67uy; 0x7Duy; 0x2Cuy; 0x38uy; 0x53uy; 0x2Auy; 0x3Auy; 0x23uy; 0xBAuy; 0x44uy; 0x42uy; 0xCAuy; 0xF5uy; 0x3Euy; 0xA6uy; 0x3Buy; 0xB4uy; 0x54uy; 0x32uy; 0x9Buy; 0x76uy; 0x24uy; 0xC8uy; 0x91uy; 0x7Buy; 0xDDuy; 0x64uy; 0xB1uy; 0xC0uy; 0xFDuy; 0x4Cuy; 0xB3uy; 0x8Euy; 0x8Cuy; 0x33uy; 0x4Cuy; 0x70uy; 0x1Cuy; 0x3Auy; 0xCDuy; 0xADuy; 0x06uy; 0x57uy; 0xFCuy; 0xCFuy; 0xECuy; 0x71uy; 0x9Buy; 0x1Fuy; 0x5Cuy; 0x3Euy; 0x4Euy; 0x46uy; 0x04uy; 0x1Fuy; 0x38uy; 0x81uy; 0x47uy; 0xFBuy; 0x4Cuy; 0xFDuy; 0xB4uy; 0x77uy; 0xA5uy; 0x24uy; 0x71uy; 0xF7uy; 0xA9uy; 0xA9uy; 0x69uy; 0x10uy; 0xB8uy; 0x55uy; 0x32uy; 0x2Euy; 0xDBuy; 0x63uy; 0x40uy; 0xD8uy; 0xA0uy; 0x0Euy; 0xF0uy; 0x92uy; 0x35uy; 0x05uy; 0x11uy; 0xE3uy; 0x0Auy; 0xBEuy; 0xC1uy; 0xFFuy; 0xF9uy; 0xE3uy; 0xA2uy; 0x6Euy; 0x7Fuy; 0xB2uy; 0x9Fuy; 0x8Cuy; 0x18uy; 0x30uy; 0x23uy; 0xC3uy; 0x58uy; 0x7Euy; 0x38uy; 0xDAuy; 0x00uy; 0x77uy; 0xD9uy; 0xB4uy; 0x76uy; 0x3Euy; 0x4Euy; 0x4Buy; 0x94uy; 0xB2uy; 0xBBuy; 0xC1uy; 0x94uy; 0xC6uy; 0x65uy; 0x1Euy; 0x77uy; 0xCAuy; 0xF9uy; 0x92uy; 0xEEuy; 0xAAuy; 0xC0uy; 0x23uy; 0x2Auy; 0x28uy; 0x1Buy; 0xF6uy; 0xB3uy; 0xA7uy; 0x39uy; 0xC1uy; 0x22uy; 0x61uy; 0x16uy; 0x82uy; 0x0Auy; 0xE8uy; 0xDBuy; 0x58uy; 0x47uy; 0xA6uy; 0x7Cuy; 0xBEuy; 0xF9uy; 0xC9uy; 0x09uy; 0x1Buy; 0x46uy; 0x2Duy; 0x53uy; 0x8Cuy; 0xD7uy; 0x2Buy; 0x03uy; 0x74uy; 0x6Auy; 0xE7uy; 0x7Fuy; 0x5Euy; 0x62uy; 0x29uy; 0x2Cuy; 0x31uy; 0x15uy; 0x62uy; 0xA8uy; 0x46uy; 0x50uy; 0x5Duy; 0xC8uy; 0x2Duy; 0xB8uy; 0x54uy; 0x33uy; 0x8Auy; 0xE4uy; 0x9Fuy; 0x52uy; 0x35uy; 0xC9uy; 0x5Buy; 0x91uy; 0x17uy; 0x8Cuy; 0xCFuy; 0x2Duy; 0xD5uy; 0xCAuy; 0xCEuy; 0xF4uy; 0x03uy; 0xECuy; 0x9Duy; 0x18uy; 0x10uy; 0xC6uy; 0x27uy; 0x2Buy; 0x04uy; 0x5Buy; 0x3Buy; 0x71uy; 0xF9uy; 0xDCuy; 0x6Buy; 0x80uy; 0xD6uy; 0x3Fuy; 0xDDuy; 0x4Auy; 0x8Euy; 0x9Auy; 0xDBuy; 0x1Euy; 0x69uy; 0x62uy; 0xA6uy; 0x95uy; 0x26uy; 0xD4uy; 0x31uy; 0x61uy; 0xC1uy; 0xA4uy; 0x1Duy; 0x57uy; 0x0Duy; 0x79uy; 0x38uy; 0xDAuy; 0xD4uy; 0xA4uy; 0x0Euy; 0x32uy; 0x9Cuy; 0xD0uy; 0xE4uy; 0x0Euy; 0x65uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 768); l let ffdhe_p6144: lseq pub_uint8 768 = of_list list_ffdhe_p6144 // The estimated symmetric-equivalent strength of this group is 175 bits. let ffdhe_params_6144 : ffdhe_params_t = Mk_ffdhe_params 768 ffdhe_p6144 1 ffdhe_g2 [@"opaque_to_smt"]
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.NatMod.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.List.Tot.fst.checked" ], "interface_file": false, "source_file": "Spec.FFDHE.fst" }
[ { "abbrev": false, "full_module": "Lib.ByteSequence", "short_module": null }, { "abbrev": false, "full_module": "Lib.Sequence", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Spec", "short_module": null }, { "abbrev": false, "full_module": "Spec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
FStar.List.Tot.Properties.llist (Lib.IntTypes.int_t Lib.IntTypes.U8 Lib.IntTypes.PUB) 1024
Prims.Tot
[ "total" ]
[]
[ "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.eq2", "Prims.int", "FStar.List.Tot.Base.length", "Lib.IntTypes.int_t", "Lib.IntTypes.U8", "Lib.IntTypes.PUB", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let list_ffdhe_p8192:List.Tot.llist pub_uint8 1024 =
[@@ inline_let ]let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x0Duy; 0xD9uy; 0x02uy; 0x0Buy; 0xFDuy; 0x64uy; 0xB6uy; 0x45uy; 0x03uy; 0x6Cuy; 0x7Auy; 0x4Euy; 0x67uy; 0x7Duy; 0x2Cuy; 0x38uy; 0x53uy; 0x2Auy; 0x3Auy; 0x23uy; 0xBAuy; 0x44uy; 0x42uy; 0xCAuy; 0xF5uy; 0x3Euy; 0xA6uy; 0x3Buy; 0xB4uy; 0x54uy; 0x32uy; 0x9Buy; 0x76uy; 0x24uy; 0xC8uy; 0x91uy; 0x7Buy; 0xDDuy; 0x64uy; 0xB1uy; 0xC0uy; 0xFDuy; 0x4Cuy; 0xB3uy; 0x8Euy; 0x8Cuy; 0x33uy; 0x4Cuy; 0x70uy; 0x1Cuy; 0x3Auy; 0xCDuy; 0xADuy; 0x06uy; 0x57uy; 0xFCuy; 0xCFuy; 0xECuy; 0x71uy; 0x9Buy; 0x1Fuy; 0x5Cuy; 0x3Euy; 0x4Euy; 0x46uy; 0x04uy; 0x1Fuy; 0x38uy; 0x81uy; 0x47uy; 0xFBuy; 0x4Cuy; 0xFDuy; 0xB4uy; 0x77uy; 0xA5uy; 0x24uy; 0x71uy; 0xF7uy; 0xA9uy; 0xA9uy; 0x69uy; 0x10uy; 0xB8uy; 0x55uy; 0x32uy; 0x2Euy; 0xDBuy; 0x63uy; 0x40uy; 0xD8uy; 0xA0uy; 0x0Euy; 0xF0uy; 0x92uy; 0x35uy; 0x05uy; 0x11uy; 0xE3uy; 0x0Auy; 0xBEuy; 0xC1uy; 0xFFuy; 0xF9uy; 0xE3uy; 0xA2uy; 0x6Euy; 0x7Fuy; 0xB2uy; 0x9Fuy; 0x8Cuy; 0x18uy; 0x30uy; 0x23uy; 0xC3uy; 0x58uy; 0x7Euy; 0x38uy; 0xDAuy; 0x00uy; 0x77uy; 0xD9uy; 0xB4uy; 0x76uy; 0x3Euy; 0x4Euy; 0x4Buy; 0x94uy; 0xB2uy; 0xBBuy; 0xC1uy; 0x94uy; 0xC6uy; 0x65uy; 0x1Euy; 0x77uy; 0xCAuy; 0xF9uy; 0x92uy; 0xEEuy; 0xAAuy; 0xC0uy; 0x23uy; 0x2Auy; 0x28uy; 0x1Buy; 0xF6uy; 0xB3uy; 0xA7uy; 0x39uy; 0xC1uy; 0x22uy; 0x61uy; 0x16uy; 0x82uy; 0x0Auy; 0xE8uy; 0xDBuy; 0x58uy; 0x47uy; 0xA6uy; 0x7Cuy; 0xBEuy; 0xF9uy; 0xC9uy; 0x09uy; 0x1Buy; 0x46uy; 0x2Duy; 0x53uy; 0x8Cuy; 0xD7uy; 0x2Buy; 0x03uy; 0x74uy; 0x6Auy; 0xE7uy; 0x7Fuy; 0x5Euy; 0x62uy; 0x29uy; 0x2Cuy; 0x31uy; 0x15uy; 0x62uy; 0xA8uy; 0x46uy; 0x50uy; 0x5Duy; 0xC8uy; 0x2Duy; 0xB8uy; 0x54uy; 0x33uy; 0x8Auy; 0xE4uy; 0x9Fuy; 0x52uy; 0x35uy; 0xC9uy; 0x5Buy; 0x91uy; 0x17uy; 0x8Cuy; 0xCFuy; 0x2Duy; 0xD5uy; 0xCAuy; 0xCEuy; 0xF4uy; 0x03uy; 0xECuy; 0x9Duy; 0x18uy; 0x10uy; 0xC6uy; 0x27uy; 0x2Buy; 0x04uy; 0x5Buy; 0x3Buy; 0x71uy; 0xF9uy; 0xDCuy; 0x6Buy; 0x80uy; 0xD6uy; 0x3Fuy; 0xDDuy; 0x4Auy; 0x8Euy; 0x9Auy; 0xDBuy; 0x1Euy; 0x69uy; 0x62uy; 0xA6uy; 0x95uy; 0x26uy; 0xD4uy; 0x31uy; 0x61uy; 0xC1uy; 0xA4uy; 0x1Duy; 0x57uy; 0x0Duy; 0x79uy; 0x38uy; 0xDAuy; 0xD4uy; 0xA4uy; 0x0Euy; 0x32uy; 0x9Cuy; 0xCFuy; 0xF4uy; 0x6Auy; 0xAAuy; 0x36uy; 0xADuy; 0x00uy; 0x4Cuy; 0xF6uy; 0x00uy; 0xC8uy; 0x38uy; 0x1Euy; 0x42uy; 0x5Auy; 0x31uy; 0xD9uy; 0x51uy; 0xAEuy; 0x64uy; 0xFDuy; 0xB2uy; 0x3Fuy; 0xCEuy; 0xC9uy; 0x50uy; 0x9Duy; 0x43uy; 0x68uy; 0x7Fuy; 0xEBuy; 0x69uy; 0xEDuy; 0xD1uy; 0xCCuy; 0x5Euy; 0x0Buy; 0x8Cuy; 0xC3uy; 0xBDuy; 0xF6uy; 0x4Buy; 0x10uy; 0xEFuy; 0x86uy; 0xB6uy; 0x31uy; 0x42uy; 0xA3uy; 0xABuy; 0x88uy; 0x29uy; 0x55uy; 0x5Buy; 0x2Fuy; 0x74uy; 0x7Cuy; 0x93uy; 0x26uy; 0x65uy; 0xCBuy; 0x2Cuy; 0x0Fuy; 0x1Cuy; 0xC0uy; 0x1Buy; 0xD7uy; 0x02uy; 0x29uy; 0x38uy; 0x88uy; 0x39uy; 0xD2uy; 0xAFuy; 0x05uy; 0xE4uy; 0x54uy; 0x50uy; 0x4Auy; 0xC7uy; 0x8Buy; 0x75uy; 0x82uy; 0x82uy; 0x28uy; 0x46uy; 0xC0uy; 0xBAuy; 0x35uy; 0xC3uy; 0x5Fuy; 0x5Cuy; 0x59uy; 0x16uy; 0x0Cuy; 0xC0uy; 0x46uy; 0xFDuy; 0x82uy; 0x51uy; 0x54uy; 0x1Fuy; 0xC6uy; 0x8Cuy; 0x9Cuy; 0x86uy; 0xB0uy; 0x22uy; 0xBBuy; 0x70uy; 0x99uy; 0x87uy; 0x6Auy; 0x46uy; 0x0Euy; 0x74uy; 0x51uy; 0xA8uy; 0xA9uy; 0x31uy; 0x09uy; 0x70uy; 0x3Fuy; 0xEEuy; 0x1Cuy; 0x21uy; 0x7Euy; 0x6Cuy; 0x38uy; 0x26uy; 0xE5uy; 0x2Cuy; 0x51uy; 0xAAuy; 0x69uy; 0x1Euy; 0x0Euy; 0x42uy; 0x3Cuy; 0xFCuy; 0x99uy; 0xE9uy; 0xE3uy; 0x16uy; 0x50uy; 0xC1uy; 0x21uy; 0x7Buy; 0x62uy; 0x48uy; 0x16uy; 0xCDuy; 0xADuy; 0x9Auy; 0x95uy; 0xF9uy; 0xD5uy; 0xB8uy; 0x01uy; 0x94uy; 0x88uy; 0xD9uy; 0xC0uy; 0xA0uy; 0xA1uy; 0xFEuy; 0x30uy; 0x75uy; 0xA5uy; 0x77uy; 0xE2uy; 0x31uy; 0x83uy; 0xF8uy; 0x1Duy; 0x4Auy; 0x3Fuy; 0x2Fuy; 0xA4uy; 0x57uy; 0x1Euy; 0xFCuy; 0x8Cuy; 0xE0uy; 0xBAuy; 0x8Auy; 0x4Fuy; 0xE8uy; 0xB6uy; 0x85uy; 0x5Duy; 0xFEuy; 0x72uy; 0xB0uy; 0xA6uy; 0x6Euy; 0xDEuy; 0xD2uy; 0xFBuy; 0xABuy; 0xFBuy; 0xE5uy; 0x8Auy; 0x30uy; 0xFAuy; 0xFAuy; 0xBEuy; 0x1Cuy; 0x5Duy; 0x71uy; 0xA8uy; 0x7Euy; 0x2Fuy; 0x74uy; 0x1Euy; 0xF8uy; 0xC1uy; 0xFEuy; 0x86uy; 0xFEuy; 0xA6uy; 0xBBuy; 0xFDuy; 0xE5uy; 0x30uy; 0x67uy; 0x7Fuy; 0x0Duy; 0x97uy; 0xD1uy; 0x1Duy; 0x49uy; 0xF7uy; 0xA8uy; 0x44uy; 0x3Duy; 0x08uy; 0x22uy; 0xE5uy; 0x06uy; 0xA9uy; 0xF4uy; 0x61uy; 0x4Euy; 0x01uy; 0x1Euy; 0x2Auy; 0x94uy; 0x83uy; 0x8Fuy; 0xF8uy; 0x8Cuy; 0xD6uy; 0x8Cuy; 0x8Buy; 0xB7uy; 0xC5uy; 0xC6uy; 0x42uy; 0x4Cuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 1024); l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input3_len
val input3_len:(x: UInt32.t{UInt32.v x = B.length input3})
val input3_len:(x: UInt32.t{UInt32.v x = B.length input3})
let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 85, "start_col": 22, "start_line": 84 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input3}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input3_len:(x: UInt32.t{UInt32.v x = B.length input3}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag3_len
val tag3_len:(x: UInt32.t{UInt32.v x = B.length tag3})
val tag3_len:(x: UInt32.t{UInt32.v x = B.length tag3})
let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 101, "start_col": 22, "start_line": 100 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag3}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag3_len:(x: UInt32.t{UInt32.v x = B.length tag3}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key4
val key4:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key4:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 114, "start_col": 0, "start_line": 111 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key4:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag4
val tag4:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag4:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 122, "start_col": 0, "start_line": 119 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag4:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag3
val tag3:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag3:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 98, "start_col": 0, "start_line": 95 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag3:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag4_len
val tag4_len:(x: UInt32.t{UInt32.v x = B.length tag4})
val tag4_len:(x: UInt32.t{UInt32.v x = B.length tag4})
let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 125, "start_col": 22, "start_line": 124 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag4}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag4_len:(x: UInt32.t{UInt32.v x = B.length tag4}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input3
val input3:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val input3:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 82, "start_col": 0, "start_line": 79 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input3:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key3
val key3:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key3:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 90, "start_col": 0, "start_line": 87 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key3:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Steel.SpinLock.fst
Steel.SpinLock.new_s_lock
val new_s_lock (p:vprop) (pred:normal (t_of p) -> prop) : Steel (s_lock p pred) p (fun _ -> emp) (requires fun h -> pred (h p)) (ensures fun _ _ _ -> True)
val new_s_lock (p:vprop) (pred:normal (t_of p) -> prop) : Steel (s_lock p pred) p (fun _ -> emp) (requires fun h -> pred (h p)) (ensures fun _ _ _ -> True)
let new_s_lock p pred = intro_vrefine p pred; new_lock (p `vrefine` pred)
{ "file_name": "lib/steel/Steel.SpinLock.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }
{ "end_col": 29, "end_line": 119, "start_col": 0, "start_line": 117 }
(* Copyright 2020 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. *) module Steel.SpinLock open FStar.Ghost open Steel.Effect.Atomic open Steel.Effect open Steel.Reference open Steel.FractionalPermission #set-options "--ide_id_info_off --fuel 0 --ifuel 0" let available = false let locked = true let lockinv (p:vprop) (r:ref bool) : vprop = h_exists (fun b -> pts_to r full_perm b `star` (if b then emp else p)) noeq type lock (p:vprop) = | Lock: r: ref bool -> i: inv (lockinv p r) -> lock p val intro_lockinv_available (#uses:inames) (p:vprop) (r:ref bool) : SteelGhostT unit uses (pts_to r full_perm available `star` p) (fun _ -> lockinv p r) val intro_lockinv_locked (#uses:inames) (p:vprop) (r:ref bool) : SteelGhostT unit uses (pts_to r full_perm locked) (fun _ -> lockinv p r) let intro_lockinv_available #uses p r = intro_exists false (fun (b: bool) -> pts_to r full_perm b `star` (if b then emp else p) ) let intro_lockinv_locked #uses p r = intro_exists true (fun b -> pts_to r full_perm b `star` (if b then emp else p)) let new_lock (p:vprop) : SteelT (lock p) p (fun _ -> emp) = let r = alloc_pt available in intro_lockinv_available p r; let i:inv (lockinv p r) = new_invariant (lockinv p r) in return (Lock r i) val acquire_core (#p:vprop) (#u:inames) (r:ref bool) (i:inv (lockinv p r)) : SteelAtomicT bool u (lockinv p r `star` emp) (fun b -> lockinv p r `star` (if b then p else emp)) let acquire_core #p #u r i = let ghost = witness_exists () in let res = cas_pt_bool r ghost available locked in (* Not sure we can avoid calling an SMT here. Better force the manual call? *) rewrite_slprop (if (Ghost.reveal ghost) then emp else p) (if res then p else emp) (fun _ -> ()); rewrite_slprop (if res then pts_to r full_perm (Ghost.hide locked) else pts_to r full_perm ghost) (pts_to r full_perm locked) (fun _ -> ()); intro_lockinv_locked p r; return res let rec acquire #p l = let r:ref bool = l.r in let i: inv (lockinv p r) = l.i in let b = with_invariant i (fun _ -> acquire_core r i) in if b then ( rewrite_slprop (if b then p else emp) p (fun _ -> ()); noop () ) else ( rewrite_slprop (if b then p else emp) emp (fun _ -> ()); acquire l ) val release_core (#p:vprop) (#u:inames) (r:ref bool) (i:inv (lockinv p r)) : SteelAtomicT bool u (lockinv p r `star` p) (fun b -> lockinv p r `star` (if b then emp else p)) let release_core #p #u r i = let v = witness_exists () in let res = cas_pt_bool r v locked available in (* Not sure we can avoid calling an SMT here. Better force the manual call? *) rewrite_slprop (if (Ghost.reveal v) then emp else p) (if res then emp else p) (fun _ -> ()); rewrite_slprop (if res then pts_to r full_perm (Ghost.hide available) else pts_to r full_perm v) (pts_to r full_perm available) (fun _ -> ()); intro_lockinv_available p r; return res let release (#p:vprop) (l:lock p) = let r:ref bool = l.r in let i: inv (lockinv p r) = l.i in let b = with_invariant i (fun _ -> release_core r i) in drop (if b then emp else p) let s_lock p pred = lock (p `vrefine` pred)
{ "checked_file": "/", "dependencies": [ "Steel.Reference.fsti.checked", "Steel.FractionalPermission.fst.checked", "Steel.Effect.Atomic.fsti.checked", "Steel.Effect.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Steel.SpinLock.fst" }
[ { "abbrev": false, "full_module": "Steel.FractionalPermission", "short_module": null }, { "abbrev": false, "full_module": "Steel.Reference", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect.Atomic", "short_module": null }, { "abbrev": false, "full_module": "FStar.Ghost", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect", "short_module": null }, { "abbrev": false, "full_module": "Steel.Memory", "short_module": null }, { "abbrev": false, "full_module": "Steel", "short_module": null }, { "abbrev": false, "full_module": "Steel", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
p: Steel.Effect.Common.vprop -> pred: (_: Steel.Effect.Common.normal (Steel.Effect.Common.t_of p) -> Prims.prop) -> Steel.Effect.Steel (Steel.SpinLock.s_lock p pred)
Steel.Effect.Steel
[]
[]
[ "Steel.Effect.Common.vprop", "Steel.Effect.Common.normal", "Steel.Effect.Common.t_of", "Prims.prop", "Steel.SpinLock.new_lock", "Steel.Effect.Common.vrefine", "Steel.SpinLock.lock", "Prims.unit", "Steel.Effect.Atomic.intro_vrefine", "FStar.Ghost.hide", "FStar.Set.set", "Steel.Memory.iname", "FStar.Set.empty", "Steel.SpinLock.s_lock" ]
[]
false
true
false
false
false
let new_s_lock p pred =
intro_vrefine p pred; new_lock (p `vrefine` pred)
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key4_len
val key4_len:(x: UInt32.t{UInt32.v x = B.length key4})
val key4_len:(x: UInt32.t{UInt32.v x = B.length key4})
let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 117, "start_col": 22, "start_line": 116 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key4}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key4_len:(x: UInt32.t{UInt32.v x = B.length key4}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input5_len
val input5_len:(x: UInt32.t{UInt32.v x = B.length input5})
val input5_len:(x: UInt32.t{UInt32.v x = B.length input5})
let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 133, "start_col": 22, "start_line": 132 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input5}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input5_len:(x: UInt32.t{UInt32.v x = B.length input5}) =
64ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input4
val input4:(b: B.buffer UInt8.t {B.length b = 63 /\ B.recallable b})
val input4:(b: B.buffer UInt8.t {B.length b = 63 /\ B.recallable b})
let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 106, "start_col": 0, "start_line": 103 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 63 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input4:(b: B.buffer UInt8.t {B.length b = 63 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key5
val key5:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key5:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 138, "start_col": 0, "start_line": 135 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key5:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag5
val tag5:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag5:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 146, "start_col": 0, "start_line": 143 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag5:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key6
val key6:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key6:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 162, "start_col": 0, "start_line": 159 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key6:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key5_len
val key5_len:(x: UInt32.t{UInt32.v x = B.length key5})
val key5_len:(x: UInt32.t{UInt32.v x = B.length key5})
let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 141, "start_col": 22, "start_line": 140 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key5}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key5_len:(x: UInt32.t{UInt32.v x = B.length key5}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input4_len
val input4_len:(x: UInt32.t{UInt32.v x = B.length input4})
val input4_len:(x: UInt32.t{UInt32.v x = B.length input4})
let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 109, "start_col": 22, "start_line": 108 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input4}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input4_len:(x: UInt32.t{UInt32.v x = B.length input4}) =
63ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag5_len
val tag5_len:(x: UInt32.t{UInt32.v x = B.length tag5})
val tag5_len:(x: UInt32.t{UInt32.v x = B.length tag5})
let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 149, "start_col": 22, "start_line": 148 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag5}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag5_len:(x: UInt32.t{UInt32.v x = B.length tag5}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input6
val input6:(b: B.buffer UInt8.t {B.length b = 48 /\ B.recallable b})
val input6:(b: B.buffer UInt8.t {B.length b = 48 /\ B.recallable b})
let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 154, "start_col": 0, "start_line": 151 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 48 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input6:(b: B.buffer UInt8.t {B.length b = 48 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input6_len
val input6_len:(x: UInt32.t{UInt32.v x = B.length input6})
val input6_len:(x: UInt32.t{UInt32.v x = B.length input6})
let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 157, "start_col": 22, "start_line": 156 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input6}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input6_len:(x: UInt32.t{UInt32.v x = B.length input6}) =
48ul
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.point_mul_g_double_split_lambda_vartime_alloc
val point_mul_g_double_split_lambda_vartime_alloc: out:point -> scalar1:qelem -> p1:point -> scalar2:qelem -> p2:point -> Stack unit (requires fun h -> live h out /\ live h scalar1 /\ live h p1 /\ live h scalar2 /\ live h p2 /\ disjoint p1 out /\ disjoint p2 out /\ eq_or_disjoint p1 p2 /\ disjoint scalar1 out /\ disjoint scalar2 out /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2))))
val point_mul_g_double_split_lambda_vartime_alloc: out:point -> scalar1:qelem -> p1:point -> scalar2:qelem -> p2:point -> Stack unit (requires fun h -> live h out /\ live h scalar1 /\ live h p1 /\ live h scalar2 /\ live h p2 /\ disjoint p1 out /\ disjoint p2 out /\ eq_or_disjoint p1 p2 /\ disjoint scalar1 out /\ disjoint scalar2 out /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2))))
let point_mul_g_double_split_lambda_vartime_alloc out scalar1 p1 scalar2 p2 = push_frame (); let r1234 = create 16ul (u64 0) in let q1234 = create 60ul (u64 0) in point_mul_g_double_split_lambda_vartime_noalloc_aux out r1234 q1234 scalar1 scalar2 p1 p2; pop_frame ()
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 14, "end_line": 541, "start_col": 0, "start_line": 536 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q) inline_for_extraction noextract let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len inline_for_extraction noextract let table_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]Q or [r_small](-Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate) let lprecomp_get_vartime_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // -[r_small]Q = [r_small](-Q) SGL.aff_point_negate_cond_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h2 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (point_eval_lseq q) is_negate)) (v r_small)) inline_for_extraction noextract let table_lambda_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]([lambda]Q) or [r_small](-[lambda]Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_lambda_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_lambda_neg_inv_precomp q is_negate) let lprecomp_get_vartime_lambda_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_lambda_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); // -[r_small]Q = [r_small](-Q) point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // [lambda]([r_small]Q) or [lambda]([r_small](-Q)) point_mul_lambda_inplace res; let h3 = ST.get () in assert (point_eval h3 res == SG.point_mul_lambda (point_eval h2 res)); SGL.lemma_glv (point_eval h2 res); assert (S.to_aff_point (point_eval h3 res) == SG.aff_point_mul SG.lambda (S.to_aff_point (point_eval h2 res))); // [r_small]([lambda]Q) or [r_small](-[lambda]Q) SGL.aff_point_negate_cond_lambda_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h3 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate)) (v r_small)) //------------------------------ inline_for_extraction noextract val point_mul_g_double_split_lambda_table_noalloc: out:point -> table2:lbuffer uint64 (32ul *! 15ul) -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> p1:point -> p2:point -> is_negate1:bool -> is_negate2:bool -> is_negate3:bool -> is_negate4:bool -> Stack unit (requires fun h -> live h out /\ live h table2 /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ eq_or_disjoint q1 q2 /\ eq_or_disjoint q1 q3 /\ eq_or_disjoint q1 q4 /\ eq_or_disjoint q2 q3 /\ eq_or_disjoint q2 q4 /\ eq_or_disjoint q3 q4 /\ disjoint out q1 /\ disjoint out q2 /\ disjoint out q3 /\ disjoint out q4 /\ disjoint out r1 /\ disjoint out r2 /\ disjoint out r3 /\ disjoint out r4 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint table2 out /\ disjoint table2 r1 /\ disjoint table2 r2 /\ disjoint table2 r3 /\ disjoint table2 r4 /\ disjoint table2 p1 /\ disjoint table2 p2 /\ disjoint table2 q1 /\ disjoint table2 q2 /\ disjoint table2 q3 /\ disjoint table2 q4 /\ point_inv h q1 /\ point_inv h q2 /\ point_inv h q3 /\ point_inv h q4 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ point_eval h q1==SG.point_negate_cond (point_eval h p1) is_negate1 /\ point_eval h q2==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p1)) is_negate2 /\ point_eval h q3==SG.point_negate_cond (point_eval h p2) is_negate3 /\ point_eval h q4==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p2)) is_negate4 /\ qas_nat h r1 < S.q /\ qas_nat h r1 < pow2 128 /\ qas_nat h r2 < S.q /\ qas_nat h r2 < pow2 128 /\ qas_nat h r3 < S.q /\ qas_nat h r3 < pow2 128 /\ qas_nat h r4 < S.q /\ qas_nat h r4 < pow2 128 /\ table_inv_w5 (as_seq h p2) (as_seq h table2)) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ refl (as_seq h1 out) == LE.exp_four_fw S.mk_k256_comm_monoid (refl (as_seq h0 q1)) 128 (qas_nat h0 r1) (refl (as_seq h0 q2)) (qas_nat h0 r2) (refl (as_seq h0 q3)) (qas_nat h0 r3) (refl (as_seq h0 q4)) (qas_nat h0 r4) 5) let point_mul_g_double_split_lambda_table_noalloc out table2 r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4 = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in [@inline_let] let bLen = 4ul in [@inline_let] let bBits = 128ul in let h0 = ST.get () in recall_contents precomp_basepoint_table_w5 precomp_basepoint_table_lseq_w5; let h1 = ST.get () in precomp_basepoint_table_lemma_w5 (); assert (table_inv_w5 (as_seq h1 p1) (as_seq h1 precomp_basepoint_table_w5)); assert (table_inv_w5 (as_seq h1 p2) (as_seq h1 table2)); assert (point_eval_lseq (as_seq h1 q1) == SG.point_negate_cond (point_eval_lseq (as_seq h1 p1)) is_negate1); [@inline_let] let table_inv1 : BE.table_inv_t U64 len table_len = table_neg_inv_precomp (as_seq h0 p1) is_negate1 in assert (table_inv1 (as_seq h1 q1) (as_seq h1 precomp_basepoint_table_w5)); assert (point_eval_lseq (as_seq h1 q2) == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq (as_seq h1 p1))) is_negate2); [@inline_let] let table_inv2 : BE.table_inv_t U64 len table_len = table_lambda_neg_inv_precomp (as_seq h0 p1) is_negate2 in assert (table_inv2 (as_seq h1 q2) (as_seq h1 precomp_basepoint_table_w5)); assert (point_eval_lseq (as_seq h1 q3) == SG.point_negate_cond (point_eval_lseq (as_seq h1 p2)) is_negate3); [@inline_let] let table_inv3 : BE.table_inv_t U64 len table_len = table_neg_inv_precomp (as_seq h0 p2) is_negate3 in assert (table_inv3 (as_seq h1 q3) (as_seq h1 table2)); assert (point_eval_lseq (as_seq h1 q4) == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq (as_seq h1 p2))) is_negate4); [@inline_let] let table_inv4 : BE.table_inv_t U64 len table_len = table_lambda_neg_inv_precomp (as_seq h0 p2) is_negate4 in assert (table_inv4 (as_seq h1 q4) (as_seq h1 table2)); ME.mk_lexp_four_fw_tables len ctx_len k l table_len table_inv1 table_inv2 table_inv3 table_inv4 (lprecomp_get_vartime_neg (as_seq h0 p1) is_negate1) (lprecomp_get_vartime_lambda_neg (as_seq h0 p1) is_negate2) (lprecomp_get_vartime_neg (as_seq h0 p2) is_negate3) (lprecomp_get_vartime_lambda_neg (as_seq h0 p2) is_negate4) (null uint64) q1 bLen bBits r1 q2 r2 q3 r3 q4 r4 (to_const precomp_basepoint_table_w5) (to_const precomp_basepoint_table_w5) (to_const table2) (to_const table2) out val point_mul_g_double_split_lambda_table: out:point -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> p1:point -> p2:point -> is_negate1:bool -> is_negate2:bool -> is_negate3:bool -> is_negate4:bool -> Stack unit (requires fun h -> live h out /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ eq_or_disjoint q1 q2 /\ eq_or_disjoint q1 q3 /\ eq_or_disjoint q1 q4 /\ eq_or_disjoint q2 q3 /\ eq_or_disjoint q2 q4 /\ eq_or_disjoint q3 q4 /\ disjoint out q1 /\ disjoint out q2 /\ disjoint out q3 /\ disjoint out q4 /\ disjoint out r1 /\ disjoint out r2 /\ disjoint out r3 /\ disjoint out r4 /\ disjoint out p1 /\ disjoint out p2 /\ point_inv h q1 /\ point_inv h q2 /\ point_inv h q3 /\ point_inv h q4 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ point_eval h q1==SG.point_negate_cond (point_eval h p1) is_negate1 /\ point_eval h q2==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p1)) is_negate2 /\ point_eval h q3==SG.point_negate_cond (point_eval h p2) is_negate3 /\ point_eval h q4==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p2)) is_negate4 /\ qas_nat h r1 < S.q /\ qas_nat h r1 < pow2 128 /\ qas_nat h r2 < S.q /\ qas_nat h r2 < pow2 128 /\ qas_nat h r3 < S.q /\ qas_nat h r3 < pow2 128 /\ qas_nat h r4 < S.q /\ qas_nat h r4 < pow2 128) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ refl (as_seq h1 out) == LE.exp_four_fw S.mk_k256_comm_monoid (refl (as_seq h0 q1)) 128 (qas_nat h0 r1) (refl (as_seq h0 q2)) (qas_nat h0 r2) (refl (as_seq h0 q3)) (qas_nat h0 r3) (refl (as_seq h0 q4)) (qas_nat h0 r4) 5) [@CInline] let point_mul_g_double_split_lambda_table out r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4 = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let table_len = 32ul in let h0 = ST.get () in push_frame (); let table2 = create (table_len *! len) (u64 0) in PT.lprecomp_table len ctx_len k (null uint64) p2 table_len table2; point_mul_g_double_split_lambda_table_noalloc out table2 r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4; let h1 = ST.get () in assert (modifies (loc out |+| loc table2) h0 h1); pop_frame (); let h2 = ST.get () in assert (modifies (loc out) h0 h2) inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_endo_split: r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack (bool & bool & bool & bool) (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint r1 q1 /\ disjoint r1 r2 /\ disjoint r1 q2 /\ disjoint r1 r3 /\ disjoint r1 q3 /\ disjoint r1 r4 /\ disjoint r1 q4 /\ disjoint r1 scalar1 /\ disjoint r1 scalar2 /\ disjoint r1 p1 /\ disjoint r1 p2 /\ disjoint q1 r2 /\ disjoint q1 q2 /\ disjoint q1 r3 /\ disjoint q1 q3 /\ disjoint q1 r4 /\ disjoint q1 q4 /\ disjoint q1 scalar1 /\ disjoint q1 scalar2 /\ disjoint q1 p1 /\ disjoint q1 p2 /\ disjoint r2 q2 /\ disjoint r2 r3 /\ disjoint r2 q3 /\ disjoint r2 r4 /\ disjoint r2 q4 /\ disjoint r2 scalar1 /\ disjoint r2 scalar2 /\ disjoint r2 p1 /\ disjoint r2 p2 /\ disjoint q2 r3 /\ disjoint q2 q3 /\ disjoint q2 r4 /\ disjoint q2 q4 /\ disjoint q2 scalar1 /\ disjoint q2 scalar2 /\ disjoint q2 p1 /\ disjoint q2 p2 /\ disjoint r3 q3 /\ disjoint r3 r4 /\ disjoint r3 q4 /\ disjoint r3 scalar1 /\ disjoint r3 scalar2 /\ disjoint r3 p1 /\ disjoint r3 p2 /\ disjoint q3 r4 /\ disjoint q3 q4 /\ disjoint q3 scalar1 /\ disjoint q3 scalar2 /\ disjoint q3 p1 /\ disjoint q3 p2 /\ disjoint r4 q4 /\ disjoint r4 scalar1 /\ disjoint r4 scalar2 /\ disjoint r4 p1 /\ disjoint r4 p2 /\ disjoint q4 scalar1 /\ disjoint q4 scalar2 /\ disjoint q4 p1 /\ disjoint q4 p2 /\ point_inv h p1 /\ point_inv h p2 /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 (is_high1, is_high2, is_high3, is_high4) h1 -> modifies (loc r1 |+| loc r2 |+| loc r3 |+| loc r4 |+| loc q1 |+| loc q2 |+| loc q3 |+| loc q4) h0 h1 /\ point_inv h1 q1 /\ point_inv h1 q2 /\ point_inv h1 q3 /\ point_inv h1 q4 /\ (let r1_s0, r2_s0 = SG.scalar_split_lambda (qas_nat h0 scalar1) in let r3_s0, r4_s0 = SG.scalar_split_lambda (qas_nat h0 scalar2) in let r1_s, q1_s, r2_s, q2_s = SG.ecmult_endo_split (qas_nat h0 scalar1) (point_eval h0 p1) in let r3_s, q3_s, r4_s, q4_s = SG.ecmult_endo_split (qas_nat h0 scalar2) (point_eval h0 p2) in qas_nat h1 r1 == r1_s /\ qas_nat h1 r2 == r2_s /\ qas_nat h1 r3 == r3_s /\ qas_nat h1 r4 == r4_s /\ point_eval h1 q1 == q1_s /\ point_eval h1 q2 == q2_s /\ point_eval h1 q3 == q3_s /\ point_eval h1 q4 == q4_s /\ is_high1 == S.scalar_is_high r1_s0 /\ is_high2 == S.scalar_is_high r2_s0 /\ is_high3 == S.scalar_is_high r3_s0 /\ is_high4 == S.scalar_is_high r4_s0)) let point_mul_g_double_split_lambda_vartime_endo_split r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 = let is_high1, is_high2 = ecmult_endo_split r1 r2 q1 q2 scalar1 p1 in let is_high3, is_high4 = ecmult_endo_split r3 r4 q3 q4 scalar2 p2 in (is_high1, is_high2, is_high3, is_high4) val check_ecmult_endo_split (r1 r2 r3 r4 : qelem) : Stack bool (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4) (ensures fun h0 b h1 -> modifies0 h0 h1 /\ b == (qas_nat h0 r1 < pow2 128 && qas_nat h0 r2 < pow2 128 && qas_nat h0 r3 < pow2 128 && qas_nat h0 r4 < pow2 128)) [@CInline] let check_ecmult_endo_split r1 r2 r3 r4 = let b1 = is_qelem_lt_pow2_128_vartime r1 in let b2 = is_qelem_lt_pow2_128_vartime r2 in let b3 = is_qelem_lt_pow2_128_vartime r3 in let b4 = is_qelem_lt_pow2_128_vartime r4 in b1 && b2 && b3 && b4 inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_noalloc: out:point -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack unit (requires fun h -> live h out /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint out r1 /\ disjoint out q1 /\ disjoint out r2 /\ disjoint out q2 /\ disjoint out r3 /\ disjoint out q3 /\ disjoint out r4 /\ disjoint out q4 /\ disjoint out scalar1 /\ disjoint out scalar2 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint r1 q1 /\ disjoint r1 r2 /\ disjoint r1 q2 /\ disjoint r1 r3 /\ disjoint r1 q3 /\ disjoint r1 r4 /\ disjoint r1 q4 /\ disjoint r1 scalar1 /\ disjoint r1 scalar2 /\ disjoint r1 p1 /\ disjoint r1 p2 /\ disjoint q1 r2 /\ disjoint q1 q2 /\ disjoint q1 r3 /\ disjoint q1 q3 /\ disjoint q1 r4 /\ disjoint q1 q4 /\ disjoint q1 scalar1 /\ disjoint q1 scalar2 /\ disjoint q1 p1 /\ disjoint q1 p2 /\ disjoint r2 q2 /\ disjoint r2 r3 /\ disjoint r2 q3 /\ disjoint r2 r4 /\ disjoint r2 q4 /\ disjoint r2 scalar1 /\ disjoint r2 scalar2 /\ disjoint r2 p1 /\ disjoint r2 p2 /\ disjoint q2 r3 /\ disjoint q2 q3 /\ disjoint q2 r4 /\ disjoint q2 q4 /\ disjoint q2 scalar1 /\ disjoint q2 scalar2 /\ disjoint q2 p1 /\ disjoint q2 p2 /\ disjoint r3 q3 /\ disjoint r3 r4 /\ disjoint r3 q4 /\ disjoint r3 scalar1 /\ disjoint r3 scalar2 /\ disjoint r3 p1 /\ disjoint r3 p2 /\ disjoint q3 r4 /\ disjoint q3 q4 /\ disjoint q3 scalar1 /\ disjoint q3 scalar2 /\ disjoint q3 p1 /\ disjoint q3 p2 /\ disjoint r4 q4 /\ disjoint r4 scalar1 /\ disjoint r4 scalar2 /\ disjoint r4 p1 /\ disjoint r4 p2 /\ disjoint q4 scalar1 /\ disjoint q4 scalar2 /\ disjoint q4 p1 /\ disjoint q4 p2 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc r1 |+| loc r2 |+| loc r3 |+| loc r4 |+| loc q1 |+| loc q2 |+| loc q3 |+| loc q4 |+| loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2)))) let point_mul_g_double_split_lambda_vartime_noalloc out r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 = let h0 = ST.get () in let is_high1, is_high2, is_high3, is_high4 = point_mul_g_double_split_lambda_vartime_endo_split r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 in let is_r1234_valid = check_ecmult_endo_split r1 r2 r3 r4 in if is_r1234_valid then point_mul_g_double_split_lambda_table out r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_high1 is_high2 is_high3 is_high4 else PM.point_mul_g_double_vartime out scalar1 scalar2 p2; let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 out) == SGL.aff_proj_point_mul_double_split_lambda (qas_nat h0 scalar1) (point_eval h0 p1) (qas_nat h0 scalar2) (point_eval h0 p2)); SGL.lemma_aff_proj_point_mul_double_split_lambda (qas_nat h0 scalar1) (point_eval h0 p1) (qas_nat h0 scalar2) (point_eval h0 p2) inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_noalloc_aux: out:point -> r1234:lbuffer uint64 16ul -> q1234:lbuffer uint64 60ul -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack unit (requires fun h -> live h out /\ live h r1234 /\ live h q1234 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint out r1234 /\ disjoint out q1234 /\ disjoint out scalar1 /\ disjoint out scalar2 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint r1234 q1234 /\ disjoint r1234 scalar1 /\ disjoint r1234 scalar2 /\ disjoint r1234 p1 /\ disjoint r1234 p2 /\ disjoint q1234 scalar1 /\ disjoint q1234 scalar2 /\ disjoint q1234 p1 /\ disjoint q1234 p2 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc r1234 |+| loc q1234 |+| loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2)))) let point_mul_g_double_split_lambda_vartime_noalloc_aux out r1234 q1234 scalar1 scalar2 p1 p2 = let r1 = sub r1234 0ul 4ul in let r2 = sub r1234 4ul 4ul in let r3 = sub r1234 8ul 4ul in let r4 = sub r1234 12ul 4ul in let q1 = sub q1234 0ul 15ul in let q2 = sub q1234 15ul 15ul in let q3 = sub q1234 30ul 15ul in let q4 = sub q1234 45ul 15ul in point_mul_g_double_split_lambda_vartime_noalloc out r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_alloc: out:point -> scalar1:qelem -> p1:point -> scalar2:qelem -> p2:point -> Stack unit (requires fun h -> live h out /\ live h scalar1 /\ live h p1 /\ live h scalar2 /\ live h p2 /\ disjoint p1 out /\ disjoint p2 out /\ eq_or_disjoint p1 p2 /\ disjoint scalar1 out /\ disjoint scalar2 out /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2))))
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
out: Hacl.Impl.K256.Point.point -> scalar1: Hacl.K256.Scalar.qelem -> p1: Hacl.Impl.K256.Point.point -> scalar2: Hacl.K256.Scalar.qelem -> p2: Hacl.Impl.K256.Point.point -> FStar.HyperStack.ST.Stack Prims.unit
FStar.HyperStack.ST.Stack
[]
[]
[ "Hacl.Impl.K256.Point.point", "Hacl.K256.Scalar.qelem", "FStar.HyperStack.ST.pop_frame", "Prims.unit", "Hacl.Impl.K256.GLV.point_mul_g_double_split_lambda_vartime_noalloc_aux", "Lib.Buffer.lbuffer_t", "Lib.Buffer.MUT", "Lib.IntTypes.int_t", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.create", "Lib.IntTypes.uint64", "FStar.UInt32.__uint_to_t", "Lib.IntTypes.u64", "Lib.Buffer.lbuffer", "FStar.HyperStack.ST.push_frame" ]
[]
false
true
false
false
false
let point_mul_g_double_split_lambda_vartime_alloc out scalar1 p1 scalar2 p2 =
push_frame (); let r1234 = create 16ul (u64 0) in let q1234 = create 60ul (u64 0) in point_mul_g_double_split_lambda_vartime_noalloc_aux out r1234 q1234 scalar1 scalar2 p1 p2; pop_frame ()
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key6_len
val key6_len:(x: UInt32.t{UInt32.v x = B.length key6})
val key6_len:(x: UInt32.t{UInt32.v x = B.length key6})
let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 165, "start_col": 22, "start_line": 164 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key6}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key6_len:(x: UInt32.t{UInt32.v x = B.length key6}) =
32ul
false
Steel.SpinLock.fst
Steel.SpinLock.s_acquire
val s_acquire (#p:vprop) (#pred:normal (t_of p) -> prop) (l:s_lock p pred) : Steel unit emp (fun _ -> p) (requires fun _ -> True) (ensures fun _ _ h1 -> pred (h1 p))
val s_acquire (#p:vprop) (#pred:normal (t_of p) -> prop) (l:s_lock p pred) : Steel unit emp (fun _ -> p) (requires fun _ -> True) (ensures fun _ _ h1 -> pred (h1 p))
let s_acquire #p #pred l = acquire l; elim_vrefine p pred
{ "file_name": "lib/steel/Steel.SpinLock.fst", "git_rev": "f984200f79bdc452374ae994a5ca837496476c41", "git_url": "https://github.com/FStarLang/steel.git", "project_name": "steel" }
{ "end_col": 21, "end_line": 123, "start_col": 0, "start_line": 121 }
(* Copyright 2020 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. *) module Steel.SpinLock open FStar.Ghost open Steel.Effect.Atomic open Steel.Effect open Steel.Reference open Steel.FractionalPermission #set-options "--ide_id_info_off --fuel 0 --ifuel 0" let available = false let locked = true let lockinv (p:vprop) (r:ref bool) : vprop = h_exists (fun b -> pts_to r full_perm b `star` (if b then emp else p)) noeq type lock (p:vprop) = | Lock: r: ref bool -> i: inv (lockinv p r) -> lock p val intro_lockinv_available (#uses:inames) (p:vprop) (r:ref bool) : SteelGhostT unit uses (pts_to r full_perm available `star` p) (fun _ -> lockinv p r) val intro_lockinv_locked (#uses:inames) (p:vprop) (r:ref bool) : SteelGhostT unit uses (pts_to r full_perm locked) (fun _ -> lockinv p r) let intro_lockinv_available #uses p r = intro_exists false (fun (b: bool) -> pts_to r full_perm b `star` (if b then emp else p) ) let intro_lockinv_locked #uses p r = intro_exists true (fun b -> pts_to r full_perm b `star` (if b then emp else p)) let new_lock (p:vprop) : SteelT (lock p) p (fun _ -> emp) = let r = alloc_pt available in intro_lockinv_available p r; let i:inv (lockinv p r) = new_invariant (lockinv p r) in return (Lock r i) val acquire_core (#p:vprop) (#u:inames) (r:ref bool) (i:inv (lockinv p r)) : SteelAtomicT bool u (lockinv p r `star` emp) (fun b -> lockinv p r `star` (if b then p else emp)) let acquire_core #p #u r i = let ghost = witness_exists () in let res = cas_pt_bool r ghost available locked in (* Not sure we can avoid calling an SMT here. Better force the manual call? *) rewrite_slprop (if (Ghost.reveal ghost) then emp else p) (if res then p else emp) (fun _ -> ()); rewrite_slprop (if res then pts_to r full_perm (Ghost.hide locked) else pts_to r full_perm ghost) (pts_to r full_perm locked) (fun _ -> ()); intro_lockinv_locked p r; return res let rec acquire #p l = let r:ref bool = l.r in let i: inv (lockinv p r) = l.i in let b = with_invariant i (fun _ -> acquire_core r i) in if b then ( rewrite_slprop (if b then p else emp) p (fun _ -> ()); noop () ) else ( rewrite_slprop (if b then p else emp) emp (fun _ -> ()); acquire l ) val release_core (#p:vprop) (#u:inames) (r:ref bool) (i:inv (lockinv p r)) : SteelAtomicT bool u (lockinv p r `star` p) (fun b -> lockinv p r `star` (if b then emp else p)) let release_core #p #u r i = let v = witness_exists () in let res = cas_pt_bool r v locked available in (* Not sure we can avoid calling an SMT here. Better force the manual call? *) rewrite_slprop (if (Ghost.reveal v) then emp else p) (if res then emp else p) (fun _ -> ()); rewrite_slprop (if res then pts_to r full_perm (Ghost.hide available) else pts_to r full_perm v) (pts_to r full_perm available) (fun _ -> ()); intro_lockinv_available p r; return res let release (#p:vprop) (l:lock p) = let r:ref bool = l.r in let i: inv (lockinv p r) = l.i in let b = with_invariant i (fun _ -> release_core r i) in drop (if b then emp else p) let s_lock p pred = lock (p `vrefine` pred) let new_s_lock p pred = intro_vrefine p pred; new_lock (p `vrefine` pred)
{ "checked_file": "/", "dependencies": [ "Steel.Reference.fsti.checked", "Steel.FractionalPermission.fst.checked", "Steel.Effect.Atomic.fsti.checked", "Steel.Effect.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Steel.SpinLock.fst" }
[ { "abbrev": false, "full_module": "Steel.FractionalPermission", "short_module": null }, { "abbrev": false, "full_module": "Steel.Reference", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect.Atomic", "short_module": null }, { "abbrev": false, "full_module": "FStar.Ghost", "short_module": null }, { "abbrev": false, "full_module": "Steel.Effect", "short_module": null }, { "abbrev": false, "full_module": "Steel.Memory", "short_module": null }, { "abbrev": false, "full_module": "Steel", "short_module": null }, { "abbrev": false, "full_module": "Steel", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
l: Steel.SpinLock.s_lock p pred -> Steel.Effect.Steel Prims.unit
Steel.Effect.Steel
[]
[]
[ "Steel.Effect.Common.vprop", "Steel.Effect.Common.normal", "Steel.Effect.Common.t_of", "Prims.prop", "Steel.SpinLock.s_lock", "Steel.Effect.Atomic.elim_vrefine", "FStar.Ghost.hide", "FStar.Set.set", "Steel.Memory.iname", "FStar.Set.empty", "Prims.unit", "Steel.SpinLock.acquire", "Steel.Effect.Common.vrefine" ]
[]
false
true
false
false
false
let s_acquire #p #pred l =
acquire l; elim_vrefine p pred
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.lprecomp_get_vartime_lambda_neg
val lprecomp_get_vartime_lambda_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_lambda_neg_inv_precomp q is_negate)
val lprecomp_get_vartime_lambda_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_lambda_neg_inv_precomp q is_negate)
let lprecomp_get_vartime_lambda_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_lambda_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); // -[r_small]Q = [r_small](-Q) point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // [lambda]([r_small]Q) or [lambda]([r_small](-Q)) point_mul_lambda_inplace res; let h3 = ST.get () in assert (point_eval h3 res == SG.point_mul_lambda (point_eval h2 res)); SGL.lemma_glv (point_eval h2 res); assert (S.to_aff_point (point_eval h3 res) == SG.aff_point_mul SG.lambda (S.to_aff_point (point_eval h2 res))); // [r_small]([lambda]Q) or [r_small](-[lambda]Q) SGL.aff_point_negate_cond_lambda_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h3 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate)) (v r_small))
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 96, "end_line": 143, "start_col": 0, "start_line": 112 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q) inline_for_extraction noextract let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len inline_for_extraction noextract let table_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]Q or [r_small](-Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate) let lprecomp_get_vartime_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // -[r_small]Q = [r_small](-Q) SGL.aff_point_negate_cond_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h2 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (point_eval_lseq q) is_negate)) (v r_small)) inline_for_extraction noextract let table_lambda_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]([lambda]Q) or [r_small](-[lambda]Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_lambda_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_lambda_neg_inv_precomp q is_negate)
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
q: FStar.Ghost.erased (Lib.Sequence.lseq Lib.IntTypes.uint64 15) {Hacl.Impl.K256.Point.point_inv_lseq (FStar.Ghost.reveal q)} -> is_negate: Prims.bool -> Hacl.Impl.Exponentiation.pow_a_to_small_b_st Lib.IntTypes.U64 15ul 0ul Hacl.Impl.K256.Group.mk_k256_concrete_ops 5ul 32ul (Hacl.Impl.K256.GLV.table_lambda_neg_inv_precomp (FStar.Ghost.reveal q) is_negate)
Prims.Tot
[ "total" ]
[]
[ "FStar.Ghost.erased", "Lib.Sequence.lseq", "Lib.IntTypes.uint64", "Hacl.Impl.K256.Point.point_inv_lseq", "FStar.Ghost.reveal", "Prims.bool", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint_t", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "FStar.UInt32.__uint_to_t", "Lib.IntTypes.v", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "Lib.Buffer.clbuffer", "Lib.IntTypes.op_Star_Bang", "Prims.b2t", "Prims.op_LessThan", "Prims.pow2", "Prims._assert", "Prims.eq2", "Spec.K256.PointOps.aff_point", "Spec.K256.PointOps.to_aff_point", "Hacl.Impl.K256.Point.point_eval", "Lib.Exponentiation.Definition.pow", "Spec.K256.mk_k256_comm_monoid", "Hacl.Spec.K256.GLV.point_negate_cond", "Hacl.Spec.K256.GLV.point_mul_lambda", "Hacl.Impl.K256.Point.point_eval_lseq", "Prims.unit", "Hacl.Spec.K256.GLV.Lemmas.aff_point_negate_cond_lambda_pow_lemma", "Hacl.Spec.K256.GLV.aff_point_mul", "Hacl.Spec.K256.GLV.lambda", "Hacl.Spec.K256.GLV.Lemmas.lemma_glv", "Spec.K256.PointOps.proj_point", "FStar.Monotonic.HyperStack.mem", "FStar.HyperStack.ST.get", "Hacl.Impl.K256.GLV.Constants.point_mul_lambda_inplace", "Hacl.Spec.K256.GLV.aff_point_negate_cond", "Spec.K256.Lemmas.to_aff_point_negate_lemma", "Hacl.Impl.K256.Point.point_negate_conditional_vartime", "Spec.Exponentiation.pow", "Spec.K256.mk_k256_concrete_ops", "Spec.Exponentiation.pow_lemma", "Hacl.Impl.Exponentiation.lprecomp_get_vartime", "Hacl.Impl.K256.Group.mk_k256_concrete_ops", "Hacl.Impl.K256.GLV.table_lambda_neg_inv_precomp", "Lib.Buffer.as_seq", "Lib.Buffer.CONST" ]
[]
false
false
false
false
false
let lprecomp_get_vartime_lambda_neg q is_negate ctx lambda_q table r_small res =
let h0 = ST.get () in assert (table_lambda_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); point_mul_lambda_inplace res; let h3 = ST.get () in assert (point_eval h3 res == SG.point_mul_lambda (point_eval h2 res)); SGL.lemma_glv (point_eval h2 res); assert (S.to_aff_point (point_eval h3 res) == SG.aff_point_mul SG.lambda (S.to_aff_point (point_eval h2 res))); SGL.aff_point_negate_cond_lambda_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h3 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate)) (v r_small))
false
Hacl.Spec.P256.Finv.fst
Hacl.Spec.P256.Finv.lemma_pow_pow_mod_mul
val lemma_pow_pow_mod_mul: f:S.felem -> a:nat -> b:nat -> c:nat -> Lemma (S.fmul (M.pow (M.pow f a % S.prime) b % S.prime) (M.pow f c % S.prime) == M.pow f (a * b + c) % S.prime)
val lemma_pow_pow_mod_mul: f:S.felem -> a:nat -> b:nat -> c:nat -> Lemma (S.fmul (M.pow (M.pow f a % S.prime) b % S.prime) (M.pow f c % S.prime) == M.pow f (a * b + c) % S.prime)
let lemma_pow_pow_mod_mul f a b c = calc (==) { S.fmul (M.pow (M.pow f a % S.prime) b % S.prime) (M.pow f c % S.prime); (==) { lemma_pow_pow_mod f a b } S.fmul (M.pow f (a * b) % S.prime) (M.pow f c % S.prime); (==) { lemma_pow_mod_mul f (a * b) c } M.pow f (a * b + c) % S.prime; }
{ "file_name": "code/ecdsap256/Hacl.Spec.P256.Finv.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 3, "end_line": 126, "start_col": 0, "start_line": 119 }
module Hacl.Spec.P256.Finv open FStar.Mul module SE = Spec.Exponentiation module LE = Lib.Exponentiation module M = Lib.NatMod module S = Spec.P256 #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let nat_mod_comm_monoid = M.mk_nat_mod_comm_monoid S.prime let mk_to_nat_mod_comm_monoid : SE.to_comm_monoid S.felem = { SE.a_spec = S.felem; SE.comm_monoid = nat_mod_comm_monoid; SE.refl = (fun (x:S.felem) -> x); } val one_mod : SE.one_st S.felem mk_to_nat_mod_comm_monoid let one_mod _ = 1 val mul_mod : SE.mul_st S.felem mk_to_nat_mod_comm_monoid let mul_mod x y = S.fmul x y val sqr_mod : SE.sqr_st S.felem mk_to_nat_mod_comm_monoid let sqr_mod x = S.fmul x x let mk_nat_mod_concrete_ops : SE.concrete_ops S.felem = { SE.to = mk_to_nat_mod_comm_monoid; SE.one = one_mod; SE.mul = mul_mod; SE.sqr = sqr_mod; } let fsquare_times (a:S.felem) (b:nat) : S.felem = SE.exp_pow2 mk_nat_mod_concrete_ops a b val fsquare_times_lemma: a:S.felem -> b:nat -> Lemma (fsquare_times a b == M.pow a (pow2 b) % S.prime) let fsquare_times_lemma a b = SE.exp_pow2_lemma mk_nat_mod_concrete_ops a b; LE.exp_pow2_lemma nat_mod_comm_monoid a b; assert (fsquare_times a b == LE.pow nat_mod_comm_monoid a (pow2 b)); M.lemma_pow_nat_mod_is_pow #S.prime a (pow2 b) (** The algorithm is taken from https://briansmith.org/ecc-inversion-addition-chains-01 *) val finv: f:S.felem -> S.felem let finv f = let x2 = S.fmul (fsquare_times f 1) f in let x3 = S.fmul (fsquare_times x2 1) f in let x6 = S.fmul (fsquare_times x3 3) x3 in let x12 = S.fmul (fsquare_times x6 6) x6 in let x15 = S.fmul (fsquare_times x12 3) x3 in let x30 = S.fmul (fsquare_times x15 15) x15 in let x32 = S.fmul (fsquare_times x30 2) x2 in let x64 = S.fmul (fsquare_times x32 32) f in let x192 = S.fmul (fsquare_times x64 128) x32 in let x224 = S.fmul (fsquare_times x192 32) x32 in let x254 = S.fmul (fsquare_times x224 30) x30 in let x256 = S.fmul (fsquare_times x254 2) f in x256 val fsqrt: f:S.felem -> S.felem let fsqrt f = let x2 = S.fmul (fsquare_times f 1) f in let x4 = S.fmul (fsquare_times x2 2) x2 in let x8 = S.fmul (fsquare_times x4 4) x4 in let x16 = S.fmul (fsquare_times x8 8) x8 in let x32 = S.fmul (fsquare_times x16 16) x16 in let x64 = S.fmul (fsquare_times x32 32) f in let x160 = S.fmul (fsquare_times x64 96) f in let x254 = fsquare_times x160 94 in x254 // TODO: mv to lib/ val lemma_pow_mod_1: f:S.felem -> Lemma (f == M.pow f 1 % S.prime) let lemma_pow_mod_1 f = M.lemma_pow1 f; Math.Lemmas.small_mod f S.prime; assert_norm (pow2 0 = 1); assert (f == M.pow f 1 % S.prime) val lemma_pow_mod_mul: f:S.felem -> a:nat -> b:nat -> Lemma (S.fmul (M.pow f a % S.prime) (M.pow f b % S.prime) == M.pow f (a + b) % S.prime) let lemma_pow_mod_mul f a b = calc (==) { S.fmul (M.pow f a % S.prime) (M.pow f b % S.prime); (==) { Math.Lemmas.lemma_mod_mul_distr_l (M.pow f a) (M.pow f b % S.prime) S.prime; Math.Lemmas.lemma_mod_mul_distr_r (M.pow f a) (M.pow f b) S.prime } M.pow f a * M.pow f b % S.prime; (==) { M.lemma_pow_add f a b } M.pow f (a + b) % S.prime; } val lemma_pow_pow_mod: f:S.felem -> a:nat -> b:nat -> Lemma (M.pow (M.pow f a % S.prime) b % S.prime == M.pow f (a * b) % S.prime) let lemma_pow_pow_mod f a b = calc (==) { M.pow (M.pow f a % S.prime) b % S.prime; (==) { M.lemma_pow_mod_base (M.pow f a) b S.prime } M.pow (M.pow f a) b % S.prime; (==) { M.lemma_pow_mul f a b } M.pow f (a * b) % S.prime; } val lemma_pow_pow_mod_mul: f:S.felem -> a:nat -> b:nat -> c:nat ->
{ "checked_file": "/", "dependencies": [ "Spec.P256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.NatMod.fsti.checked", "Lib.Exponentiation.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.Calc.fsti.checked" ], "interface_file": false, "source_file": "Hacl.Spec.P256.Finv.fst" }
[ { "abbrev": true, "full_module": "Spec.P256", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.NatMod", "short_module": "M" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.P256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Spec.P256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
f: Spec.P256.PointOps.felem -> a: Prims.nat -> b: Prims.nat -> c: Prims.nat -> FStar.Pervasives.Lemma (ensures Spec.P256.PointOps.fmul (Lib.NatMod.pow (Lib.NatMod.pow f a % Spec.P256.PointOps.prime) b % Spec.P256.PointOps.prime) (Lib.NatMod.pow f c % Spec.P256.PointOps.prime) == Lib.NatMod.pow f (a * b + c) % Spec.P256.PointOps.prime)
FStar.Pervasives.Lemma
[ "lemma" ]
[]
[ "Spec.P256.PointOps.felem", "Prims.nat", "FStar.Calc.calc_finish", "Prims.eq2", "Spec.P256.PointOps.fmul", "Prims.op_Modulus", "Lib.NatMod.pow", "Spec.P256.PointOps.prime", "Prims.op_Addition", "FStar.Mul.op_Star", "Prims.Cons", "FStar.Preorder.relation", "Prims.Nil", "Prims.unit", "FStar.Calc.calc_step", "FStar.Calc.calc_init", "FStar.Calc.calc_pack", "Hacl.Spec.P256.Finv.lemma_pow_pow_mod", "Prims.squash", "Hacl.Spec.P256.Finv.lemma_pow_mod_mul" ]
[]
false
false
true
false
false
let lemma_pow_pow_mod_mul f a b c =
calc ( == ) { S.fmul (M.pow (M.pow f a % S.prime) b % S.prime) (M.pow f c % S.prime); ( == ) { lemma_pow_pow_mod f a b } S.fmul (M.pow f (a * b) % S.prime) (M.pow f c % S.prime); ( == ) { lemma_pow_mod_mul f (a * b) c } M.pow f (a * b + c) % S.prime; }
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input5
val input5:(b: B.buffer UInt8.t {B.length b = 64 /\ B.recallable b})
val input5:(b: B.buffer UInt8.t {B.length b = 64 /\ B.recallable b})
let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 130, "start_col": 0, "start_line": 127 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 64 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input5:(b: B.buffer UInt8.t {B.length b = 64 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag6
val tag6:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag6:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 170, "start_col": 0, "start_line": 167 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag6:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input7_len
val input7_len:(x: UInt32.t{UInt32.v x = B.length input7})
val input7_len:(x: UInt32.t{UInt32.v x = B.length input7})
let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 181, "start_col": 22, "start_line": 180 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input7}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input7_len:(x: UInt32.t{UInt32.v x = B.length input7}) =
96ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key7_len
val key7_len:(x: UInt32.t{UInt32.v x = B.length key7})
val key7_len:(x: UInt32.t{UInt32.v x = B.length key7})
let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 189, "start_col": 22, "start_line": 188 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key7}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key7_len:(x: UInt32.t{UInt32.v x = B.length key7}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag6_len
val tag6_len:(x: UInt32.t{UInt32.v x = B.length tag6})
val tag6_len:(x: UInt32.t{UInt32.v x = B.length tag6})
let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 173, "start_col": 22, "start_line": 172 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag6}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag6_len:(x: UInt32.t{UInt32.v x = B.length tag6}) =
16ul
false
Spec.FFDHE.fst
Spec.FFDHE.ffdhe_p_lemma0
val ffdhe_p_lemma0: a:ffdhe_alg -> Lemma (let ffdhe_p = get_ffdhe_params a in let len = ffdhe_len a in let p = Mk_ffdhe_params?.ffdhe_p ffdhe_p in Seq.index p (len - 1) == 0xffuy)
val ffdhe_p_lemma0: a:ffdhe_alg -> Lemma (let ffdhe_p = get_ffdhe_params a in let len = ffdhe_len a in let p = Mk_ffdhe_params?.ffdhe_p ffdhe_p in Seq.index p (len - 1) == 0xffuy)
let ffdhe_p_lemma0 a = let ffdhe_p = get_ffdhe_params a in let len = ffdhe_len a in let p = Mk_ffdhe_params?.ffdhe_p ffdhe_p in allow_inversion ffdhe_alg; match a with | FFDHE2048 -> assert (p == of_list list_ffdhe_p2048); assert_norm (List.Tot.index list_ffdhe_p2048 255 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p2048) 255 == 0xffuy) | FFDHE3072 -> assert (p == of_list list_ffdhe_p3072); assert_norm (List.Tot.index list_ffdhe_p3072 383 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p3072) 383 == 0xffuy) | FFDHE4096 -> assert (p == of_list list_ffdhe_p4096); assert_norm (List.Tot.index list_ffdhe_p4096 511 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p4096) 511 == 0xffuy) | FFDHE6144 -> assert (p == of_list list_ffdhe_p6144); assert_norm (List.Tot.index list_ffdhe_p6144 767 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p6144) 767 == 0xffuy) | FFDHE8192 -> assert (p == of_list list_ffdhe_p8192); assert_norm (List.Tot.index list_ffdhe_p8192 1023 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p8192) 1023 == 0xffuy)
{ "file_name": "specs/Spec.FFDHE.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 72, "end_line": 548, "start_col": 0, "start_line": 522 }
module Spec.FFDHE open FStar.Mul open Lib.IntTypes open Lib.Sequence open Lib.ByteSequence #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" (** https://tools.ietf.org/html/rfc7919#appendix-A *) noeq type ffdhe_params_t = | Mk_ffdhe_params: ffdhe_p_len:size_nat -> ffdhe_p:lseq pub_uint8 ffdhe_p_len -> ffdhe_g_len:size_nat -> ffdhe_g:lseq pub_uint8 ffdhe_g_len -> ffdhe_params_t [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_g2: List.Tot.llist pub_uint8 1 = [@inline_let] let l = [ 0x02uy ] in assert_norm (List.Tot.length l == 1); l let ffdhe_g2: lseq pub_uint8 1 = of_list list_ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p2048: List.Tot.llist pub_uint8 256 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x28uy; 0x5Cuy; 0x97uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 256); l let ffdhe_p2048: lseq pub_uint8 256 = of_list list_ffdhe_p2048 // The estimated symmetric-equivalent strength of this group is 103 bits. let ffdhe_params_2048 : ffdhe_params_t = Mk_ffdhe_params 256 ffdhe_p2048 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p3072: List.Tot.llist pub_uint8 384 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0xC6uy; 0x2Euy; 0x37uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 384); l let ffdhe_p3072: lseq pub_uint8 384 = of_list list_ffdhe_p3072 // The estimated symmetric-equivalent strength of this group is 125 bits. let ffdhe_params_3072 : ffdhe_params_t = Mk_ffdhe_params 384 ffdhe_p3072 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p4096: List.Tot.llist pub_uint8 512 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x65uy; 0x5Fuy; 0x6Auy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 512); l let ffdhe_p4096: lseq pub_uint8 512 = of_list list_ffdhe_p4096 // The estimated symmetric-equivalent strength of this group is 150 bits. let ffdhe_params_4096 : ffdhe_params_t = Mk_ffdhe_params 512 ffdhe_p4096 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p6144: List.Tot.llist pub_uint8 768 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x0Duy; 0xD9uy; 0x02uy; 0x0Buy; 0xFDuy; 0x64uy; 0xB6uy; 0x45uy; 0x03uy; 0x6Cuy; 0x7Auy; 0x4Euy; 0x67uy; 0x7Duy; 0x2Cuy; 0x38uy; 0x53uy; 0x2Auy; 0x3Auy; 0x23uy; 0xBAuy; 0x44uy; 0x42uy; 0xCAuy; 0xF5uy; 0x3Euy; 0xA6uy; 0x3Buy; 0xB4uy; 0x54uy; 0x32uy; 0x9Buy; 0x76uy; 0x24uy; 0xC8uy; 0x91uy; 0x7Buy; 0xDDuy; 0x64uy; 0xB1uy; 0xC0uy; 0xFDuy; 0x4Cuy; 0xB3uy; 0x8Euy; 0x8Cuy; 0x33uy; 0x4Cuy; 0x70uy; 0x1Cuy; 0x3Auy; 0xCDuy; 0xADuy; 0x06uy; 0x57uy; 0xFCuy; 0xCFuy; 0xECuy; 0x71uy; 0x9Buy; 0x1Fuy; 0x5Cuy; 0x3Euy; 0x4Euy; 0x46uy; 0x04uy; 0x1Fuy; 0x38uy; 0x81uy; 0x47uy; 0xFBuy; 0x4Cuy; 0xFDuy; 0xB4uy; 0x77uy; 0xA5uy; 0x24uy; 0x71uy; 0xF7uy; 0xA9uy; 0xA9uy; 0x69uy; 0x10uy; 0xB8uy; 0x55uy; 0x32uy; 0x2Euy; 0xDBuy; 0x63uy; 0x40uy; 0xD8uy; 0xA0uy; 0x0Euy; 0xF0uy; 0x92uy; 0x35uy; 0x05uy; 0x11uy; 0xE3uy; 0x0Auy; 0xBEuy; 0xC1uy; 0xFFuy; 0xF9uy; 0xE3uy; 0xA2uy; 0x6Euy; 0x7Fuy; 0xB2uy; 0x9Fuy; 0x8Cuy; 0x18uy; 0x30uy; 0x23uy; 0xC3uy; 0x58uy; 0x7Euy; 0x38uy; 0xDAuy; 0x00uy; 0x77uy; 0xD9uy; 0xB4uy; 0x76uy; 0x3Euy; 0x4Euy; 0x4Buy; 0x94uy; 0xB2uy; 0xBBuy; 0xC1uy; 0x94uy; 0xC6uy; 0x65uy; 0x1Euy; 0x77uy; 0xCAuy; 0xF9uy; 0x92uy; 0xEEuy; 0xAAuy; 0xC0uy; 0x23uy; 0x2Auy; 0x28uy; 0x1Buy; 0xF6uy; 0xB3uy; 0xA7uy; 0x39uy; 0xC1uy; 0x22uy; 0x61uy; 0x16uy; 0x82uy; 0x0Auy; 0xE8uy; 0xDBuy; 0x58uy; 0x47uy; 0xA6uy; 0x7Cuy; 0xBEuy; 0xF9uy; 0xC9uy; 0x09uy; 0x1Buy; 0x46uy; 0x2Duy; 0x53uy; 0x8Cuy; 0xD7uy; 0x2Buy; 0x03uy; 0x74uy; 0x6Auy; 0xE7uy; 0x7Fuy; 0x5Euy; 0x62uy; 0x29uy; 0x2Cuy; 0x31uy; 0x15uy; 0x62uy; 0xA8uy; 0x46uy; 0x50uy; 0x5Duy; 0xC8uy; 0x2Duy; 0xB8uy; 0x54uy; 0x33uy; 0x8Auy; 0xE4uy; 0x9Fuy; 0x52uy; 0x35uy; 0xC9uy; 0x5Buy; 0x91uy; 0x17uy; 0x8Cuy; 0xCFuy; 0x2Duy; 0xD5uy; 0xCAuy; 0xCEuy; 0xF4uy; 0x03uy; 0xECuy; 0x9Duy; 0x18uy; 0x10uy; 0xC6uy; 0x27uy; 0x2Buy; 0x04uy; 0x5Buy; 0x3Buy; 0x71uy; 0xF9uy; 0xDCuy; 0x6Buy; 0x80uy; 0xD6uy; 0x3Fuy; 0xDDuy; 0x4Auy; 0x8Euy; 0x9Auy; 0xDBuy; 0x1Euy; 0x69uy; 0x62uy; 0xA6uy; 0x95uy; 0x26uy; 0xD4uy; 0x31uy; 0x61uy; 0xC1uy; 0xA4uy; 0x1Duy; 0x57uy; 0x0Duy; 0x79uy; 0x38uy; 0xDAuy; 0xD4uy; 0xA4uy; 0x0Euy; 0x32uy; 0x9Cuy; 0xD0uy; 0xE4uy; 0x0Euy; 0x65uy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 768); l let ffdhe_p6144: lseq pub_uint8 768 = of_list list_ffdhe_p6144 // The estimated symmetric-equivalent strength of this group is 175 bits. let ffdhe_params_6144 : ffdhe_params_t = Mk_ffdhe_params 768 ffdhe_p6144 1 ffdhe_g2 [@"opaque_to_smt"] inline_for_extraction let list_ffdhe_p8192: List.Tot.llist pub_uint8 1024 = [@inline_let] let l = [ 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xADuy; 0xF8uy; 0x54uy; 0x58uy; 0xA2uy; 0xBBuy; 0x4Auy; 0x9Auy; 0xAFuy; 0xDCuy; 0x56uy; 0x20uy; 0x27uy; 0x3Duy; 0x3Cuy; 0xF1uy; 0xD8uy; 0xB9uy; 0xC5uy; 0x83uy; 0xCEuy; 0x2Duy; 0x36uy; 0x95uy; 0xA9uy; 0xE1uy; 0x36uy; 0x41uy; 0x14uy; 0x64uy; 0x33uy; 0xFBuy; 0xCCuy; 0x93uy; 0x9Duy; 0xCEuy; 0x24uy; 0x9Buy; 0x3Euy; 0xF9uy; 0x7Duy; 0x2Fuy; 0xE3uy; 0x63uy; 0x63uy; 0x0Cuy; 0x75uy; 0xD8uy; 0xF6uy; 0x81uy; 0xB2uy; 0x02uy; 0xAEuy; 0xC4uy; 0x61uy; 0x7Auy; 0xD3uy; 0xDFuy; 0x1Euy; 0xD5uy; 0xD5uy; 0xFDuy; 0x65uy; 0x61uy; 0x24uy; 0x33uy; 0xF5uy; 0x1Fuy; 0x5Fuy; 0x06uy; 0x6Euy; 0xD0uy; 0x85uy; 0x63uy; 0x65uy; 0x55uy; 0x3Duy; 0xEDuy; 0x1Auy; 0xF3uy; 0xB5uy; 0x57uy; 0x13uy; 0x5Euy; 0x7Fuy; 0x57uy; 0xC9uy; 0x35uy; 0x98uy; 0x4Fuy; 0x0Cuy; 0x70uy; 0xE0uy; 0xE6uy; 0x8Buy; 0x77uy; 0xE2uy; 0xA6uy; 0x89uy; 0xDAuy; 0xF3uy; 0xEFuy; 0xE8uy; 0x72uy; 0x1Duy; 0xF1uy; 0x58uy; 0xA1uy; 0x36uy; 0xADuy; 0xE7uy; 0x35uy; 0x30uy; 0xACuy; 0xCAuy; 0x4Fuy; 0x48uy; 0x3Auy; 0x79uy; 0x7Auy; 0xBCuy; 0x0Auy; 0xB1uy; 0x82uy; 0xB3uy; 0x24uy; 0xFBuy; 0x61uy; 0xD1uy; 0x08uy; 0xA9uy; 0x4Buy; 0xB2uy; 0xC8uy; 0xE3uy; 0xFBuy; 0xB9uy; 0x6Auy; 0xDAuy; 0xB7uy; 0x60uy; 0xD7uy; 0xF4uy; 0x68uy; 0x1Duy; 0x4Fuy; 0x42uy; 0xA3uy; 0xDEuy; 0x39uy; 0x4Duy; 0xF4uy; 0xAEuy; 0x56uy; 0xEDuy; 0xE7uy; 0x63uy; 0x72uy; 0xBBuy; 0x19uy; 0x0Buy; 0x07uy; 0xA7uy; 0xC8uy; 0xEEuy; 0x0Auy; 0x6Duy; 0x70uy; 0x9Euy; 0x02uy; 0xFCuy; 0xE1uy; 0xCDuy; 0xF7uy; 0xE2uy; 0xECuy; 0xC0uy; 0x34uy; 0x04uy; 0xCDuy; 0x28uy; 0x34uy; 0x2Fuy; 0x61uy; 0x91uy; 0x72uy; 0xFEuy; 0x9Cuy; 0xE9uy; 0x85uy; 0x83uy; 0xFFuy; 0x8Euy; 0x4Fuy; 0x12uy; 0x32uy; 0xEEuy; 0xF2uy; 0x81uy; 0x83uy; 0xC3uy; 0xFEuy; 0x3Buy; 0x1Buy; 0x4Cuy; 0x6Fuy; 0xADuy; 0x73uy; 0x3Buy; 0xB5uy; 0xFCuy; 0xBCuy; 0x2Euy; 0xC2uy; 0x20uy; 0x05uy; 0xC5uy; 0x8Euy; 0xF1uy; 0x83uy; 0x7Duy; 0x16uy; 0x83uy; 0xB2uy; 0xC6uy; 0xF3uy; 0x4Auy; 0x26uy; 0xC1uy; 0xB2uy; 0xEFuy; 0xFAuy; 0x88uy; 0x6Buy; 0x42uy; 0x38uy; 0x61uy; 0x1Fuy; 0xCFuy; 0xDCuy; 0xDEuy; 0x35uy; 0x5Buy; 0x3Buy; 0x65uy; 0x19uy; 0x03uy; 0x5Buy; 0xBCuy; 0x34uy; 0xF4uy; 0xDEuy; 0xF9uy; 0x9Cuy; 0x02uy; 0x38uy; 0x61uy; 0xB4uy; 0x6Fuy; 0xC9uy; 0xD6uy; 0xE6uy; 0xC9uy; 0x07uy; 0x7Auy; 0xD9uy; 0x1Duy; 0x26uy; 0x91uy; 0xF7uy; 0xF7uy; 0xEEuy; 0x59uy; 0x8Cuy; 0xB0uy; 0xFAuy; 0xC1uy; 0x86uy; 0xD9uy; 0x1Cuy; 0xAEuy; 0xFEuy; 0x13uy; 0x09uy; 0x85uy; 0x13uy; 0x92uy; 0x70uy; 0xB4uy; 0x13uy; 0x0Cuy; 0x93uy; 0xBCuy; 0x43uy; 0x79uy; 0x44uy; 0xF4uy; 0xFDuy; 0x44uy; 0x52uy; 0xE2uy; 0xD7uy; 0x4Duy; 0xD3uy; 0x64uy; 0xF2uy; 0xE2uy; 0x1Euy; 0x71uy; 0xF5uy; 0x4Buy; 0xFFuy; 0x5Cuy; 0xAEuy; 0x82uy; 0xABuy; 0x9Cuy; 0x9Duy; 0xF6uy; 0x9Euy; 0xE8uy; 0x6Duy; 0x2Buy; 0xC5uy; 0x22uy; 0x36uy; 0x3Auy; 0x0Duy; 0xABuy; 0xC5uy; 0x21uy; 0x97uy; 0x9Buy; 0x0Duy; 0xEAuy; 0xDAuy; 0x1Duy; 0xBFuy; 0x9Auy; 0x42uy; 0xD5uy; 0xC4uy; 0x48uy; 0x4Euy; 0x0Auy; 0xBCuy; 0xD0uy; 0x6Buy; 0xFAuy; 0x53uy; 0xDDuy; 0xEFuy; 0x3Cuy; 0x1Buy; 0x20uy; 0xEEuy; 0x3Fuy; 0xD5uy; 0x9Duy; 0x7Cuy; 0x25uy; 0xE4uy; 0x1Duy; 0x2Buy; 0x66uy; 0x9Euy; 0x1Euy; 0xF1uy; 0x6Euy; 0x6Fuy; 0x52uy; 0xC3uy; 0x16uy; 0x4Duy; 0xF4uy; 0xFBuy; 0x79uy; 0x30uy; 0xE9uy; 0xE4uy; 0xE5uy; 0x88uy; 0x57uy; 0xB6uy; 0xACuy; 0x7Duy; 0x5Fuy; 0x42uy; 0xD6uy; 0x9Fuy; 0x6Duy; 0x18uy; 0x77uy; 0x63uy; 0xCFuy; 0x1Duy; 0x55uy; 0x03uy; 0x40uy; 0x04uy; 0x87uy; 0xF5uy; 0x5Buy; 0xA5uy; 0x7Euy; 0x31uy; 0xCCuy; 0x7Auy; 0x71uy; 0x35uy; 0xC8uy; 0x86uy; 0xEFuy; 0xB4uy; 0x31uy; 0x8Auy; 0xEDuy; 0x6Auy; 0x1Euy; 0x01uy; 0x2Duy; 0x9Euy; 0x68uy; 0x32uy; 0xA9uy; 0x07uy; 0x60uy; 0x0Auy; 0x91uy; 0x81uy; 0x30uy; 0xC4uy; 0x6Duy; 0xC7uy; 0x78uy; 0xF9uy; 0x71uy; 0xADuy; 0x00uy; 0x38uy; 0x09uy; 0x29uy; 0x99uy; 0xA3uy; 0x33uy; 0xCBuy; 0x8Buy; 0x7Auy; 0x1Auy; 0x1Duy; 0xB9uy; 0x3Duy; 0x71uy; 0x40uy; 0x00uy; 0x3Cuy; 0x2Auy; 0x4Euy; 0xCEuy; 0xA9uy; 0xF9uy; 0x8Duy; 0x0Auy; 0xCCuy; 0x0Auy; 0x82uy; 0x91uy; 0xCDuy; 0xCEuy; 0xC9uy; 0x7Duy; 0xCFuy; 0x8Euy; 0xC9uy; 0xB5uy; 0x5Auy; 0x7Fuy; 0x88uy; 0xA4uy; 0x6Buy; 0x4Duy; 0xB5uy; 0xA8uy; 0x51uy; 0xF4uy; 0x41uy; 0x82uy; 0xE1uy; 0xC6uy; 0x8Auy; 0x00uy; 0x7Euy; 0x5Euy; 0x0Duy; 0xD9uy; 0x02uy; 0x0Buy; 0xFDuy; 0x64uy; 0xB6uy; 0x45uy; 0x03uy; 0x6Cuy; 0x7Auy; 0x4Euy; 0x67uy; 0x7Duy; 0x2Cuy; 0x38uy; 0x53uy; 0x2Auy; 0x3Auy; 0x23uy; 0xBAuy; 0x44uy; 0x42uy; 0xCAuy; 0xF5uy; 0x3Euy; 0xA6uy; 0x3Buy; 0xB4uy; 0x54uy; 0x32uy; 0x9Buy; 0x76uy; 0x24uy; 0xC8uy; 0x91uy; 0x7Buy; 0xDDuy; 0x64uy; 0xB1uy; 0xC0uy; 0xFDuy; 0x4Cuy; 0xB3uy; 0x8Euy; 0x8Cuy; 0x33uy; 0x4Cuy; 0x70uy; 0x1Cuy; 0x3Auy; 0xCDuy; 0xADuy; 0x06uy; 0x57uy; 0xFCuy; 0xCFuy; 0xECuy; 0x71uy; 0x9Buy; 0x1Fuy; 0x5Cuy; 0x3Euy; 0x4Euy; 0x46uy; 0x04uy; 0x1Fuy; 0x38uy; 0x81uy; 0x47uy; 0xFBuy; 0x4Cuy; 0xFDuy; 0xB4uy; 0x77uy; 0xA5uy; 0x24uy; 0x71uy; 0xF7uy; 0xA9uy; 0xA9uy; 0x69uy; 0x10uy; 0xB8uy; 0x55uy; 0x32uy; 0x2Euy; 0xDBuy; 0x63uy; 0x40uy; 0xD8uy; 0xA0uy; 0x0Euy; 0xF0uy; 0x92uy; 0x35uy; 0x05uy; 0x11uy; 0xE3uy; 0x0Auy; 0xBEuy; 0xC1uy; 0xFFuy; 0xF9uy; 0xE3uy; 0xA2uy; 0x6Euy; 0x7Fuy; 0xB2uy; 0x9Fuy; 0x8Cuy; 0x18uy; 0x30uy; 0x23uy; 0xC3uy; 0x58uy; 0x7Euy; 0x38uy; 0xDAuy; 0x00uy; 0x77uy; 0xD9uy; 0xB4uy; 0x76uy; 0x3Euy; 0x4Euy; 0x4Buy; 0x94uy; 0xB2uy; 0xBBuy; 0xC1uy; 0x94uy; 0xC6uy; 0x65uy; 0x1Euy; 0x77uy; 0xCAuy; 0xF9uy; 0x92uy; 0xEEuy; 0xAAuy; 0xC0uy; 0x23uy; 0x2Auy; 0x28uy; 0x1Buy; 0xF6uy; 0xB3uy; 0xA7uy; 0x39uy; 0xC1uy; 0x22uy; 0x61uy; 0x16uy; 0x82uy; 0x0Auy; 0xE8uy; 0xDBuy; 0x58uy; 0x47uy; 0xA6uy; 0x7Cuy; 0xBEuy; 0xF9uy; 0xC9uy; 0x09uy; 0x1Buy; 0x46uy; 0x2Duy; 0x53uy; 0x8Cuy; 0xD7uy; 0x2Buy; 0x03uy; 0x74uy; 0x6Auy; 0xE7uy; 0x7Fuy; 0x5Euy; 0x62uy; 0x29uy; 0x2Cuy; 0x31uy; 0x15uy; 0x62uy; 0xA8uy; 0x46uy; 0x50uy; 0x5Duy; 0xC8uy; 0x2Duy; 0xB8uy; 0x54uy; 0x33uy; 0x8Auy; 0xE4uy; 0x9Fuy; 0x52uy; 0x35uy; 0xC9uy; 0x5Buy; 0x91uy; 0x17uy; 0x8Cuy; 0xCFuy; 0x2Duy; 0xD5uy; 0xCAuy; 0xCEuy; 0xF4uy; 0x03uy; 0xECuy; 0x9Duy; 0x18uy; 0x10uy; 0xC6uy; 0x27uy; 0x2Buy; 0x04uy; 0x5Buy; 0x3Buy; 0x71uy; 0xF9uy; 0xDCuy; 0x6Buy; 0x80uy; 0xD6uy; 0x3Fuy; 0xDDuy; 0x4Auy; 0x8Euy; 0x9Auy; 0xDBuy; 0x1Euy; 0x69uy; 0x62uy; 0xA6uy; 0x95uy; 0x26uy; 0xD4uy; 0x31uy; 0x61uy; 0xC1uy; 0xA4uy; 0x1Duy; 0x57uy; 0x0Duy; 0x79uy; 0x38uy; 0xDAuy; 0xD4uy; 0xA4uy; 0x0Euy; 0x32uy; 0x9Cuy; 0xCFuy; 0xF4uy; 0x6Auy; 0xAAuy; 0x36uy; 0xADuy; 0x00uy; 0x4Cuy; 0xF6uy; 0x00uy; 0xC8uy; 0x38uy; 0x1Euy; 0x42uy; 0x5Auy; 0x31uy; 0xD9uy; 0x51uy; 0xAEuy; 0x64uy; 0xFDuy; 0xB2uy; 0x3Fuy; 0xCEuy; 0xC9uy; 0x50uy; 0x9Duy; 0x43uy; 0x68uy; 0x7Fuy; 0xEBuy; 0x69uy; 0xEDuy; 0xD1uy; 0xCCuy; 0x5Euy; 0x0Buy; 0x8Cuy; 0xC3uy; 0xBDuy; 0xF6uy; 0x4Buy; 0x10uy; 0xEFuy; 0x86uy; 0xB6uy; 0x31uy; 0x42uy; 0xA3uy; 0xABuy; 0x88uy; 0x29uy; 0x55uy; 0x5Buy; 0x2Fuy; 0x74uy; 0x7Cuy; 0x93uy; 0x26uy; 0x65uy; 0xCBuy; 0x2Cuy; 0x0Fuy; 0x1Cuy; 0xC0uy; 0x1Buy; 0xD7uy; 0x02uy; 0x29uy; 0x38uy; 0x88uy; 0x39uy; 0xD2uy; 0xAFuy; 0x05uy; 0xE4uy; 0x54uy; 0x50uy; 0x4Auy; 0xC7uy; 0x8Buy; 0x75uy; 0x82uy; 0x82uy; 0x28uy; 0x46uy; 0xC0uy; 0xBAuy; 0x35uy; 0xC3uy; 0x5Fuy; 0x5Cuy; 0x59uy; 0x16uy; 0x0Cuy; 0xC0uy; 0x46uy; 0xFDuy; 0x82uy; 0x51uy; 0x54uy; 0x1Fuy; 0xC6uy; 0x8Cuy; 0x9Cuy; 0x86uy; 0xB0uy; 0x22uy; 0xBBuy; 0x70uy; 0x99uy; 0x87uy; 0x6Auy; 0x46uy; 0x0Euy; 0x74uy; 0x51uy; 0xA8uy; 0xA9uy; 0x31uy; 0x09uy; 0x70uy; 0x3Fuy; 0xEEuy; 0x1Cuy; 0x21uy; 0x7Euy; 0x6Cuy; 0x38uy; 0x26uy; 0xE5uy; 0x2Cuy; 0x51uy; 0xAAuy; 0x69uy; 0x1Euy; 0x0Euy; 0x42uy; 0x3Cuy; 0xFCuy; 0x99uy; 0xE9uy; 0xE3uy; 0x16uy; 0x50uy; 0xC1uy; 0x21uy; 0x7Buy; 0x62uy; 0x48uy; 0x16uy; 0xCDuy; 0xADuy; 0x9Auy; 0x95uy; 0xF9uy; 0xD5uy; 0xB8uy; 0x01uy; 0x94uy; 0x88uy; 0xD9uy; 0xC0uy; 0xA0uy; 0xA1uy; 0xFEuy; 0x30uy; 0x75uy; 0xA5uy; 0x77uy; 0xE2uy; 0x31uy; 0x83uy; 0xF8uy; 0x1Duy; 0x4Auy; 0x3Fuy; 0x2Fuy; 0xA4uy; 0x57uy; 0x1Euy; 0xFCuy; 0x8Cuy; 0xE0uy; 0xBAuy; 0x8Auy; 0x4Fuy; 0xE8uy; 0xB6uy; 0x85uy; 0x5Duy; 0xFEuy; 0x72uy; 0xB0uy; 0xA6uy; 0x6Euy; 0xDEuy; 0xD2uy; 0xFBuy; 0xABuy; 0xFBuy; 0xE5uy; 0x8Auy; 0x30uy; 0xFAuy; 0xFAuy; 0xBEuy; 0x1Cuy; 0x5Duy; 0x71uy; 0xA8uy; 0x7Euy; 0x2Fuy; 0x74uy; 0x1Euy; 0xF8uy; 0xC1uy; 0xFEuy; 0x86uy; 0xFEuy; 0xA6uy; 0xBBuy; 0xFDuy; 0xE5uy; 0x30uy; 0x67uy; 0x7Fuy; 0x0Duy; 0x97uy; 0xD1uy; 0x1Duy; 0x49uy; 0xF7uy; 0xA8uy; 0x44uy; 0x3Duy; 0x08uy; 0x22uy; 0xE5uy; 0x06uy; 0xA9uy; 0xF4uy; 0x61uy; 0x4Euy; 0x01uy; 0x1Euy; 0x2Auy; 0x94uy; 0x83uy; 0x8Fuy; 0xF8uy; 0x8Cuy; 0xD6uy; 0x8Cuy; 0x8Buy; 0xB7uy; 0xC5uy; 0xC6uy; 0x42uy; 0x4Cuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy; 0xFFuy ] in assert_norm (List.Tot.length l == 1024); l let ffdhe_p8192: lseq pub_uint8 1024 = of_list list_ffdhe_p8192 // The estimated symmetric-equivalent strength of this group is 192 bits. let ffdhe_params_8192 : ffdhe_params_t = Mk_ffdhe_params 1024 ffdhe_p8192 1 ffdhe_g2 type ffdhe_alg = | FFDHE2048 | FFDHE3072 | FFDHE4096 | FFDHE6144 | FFDHE8192 let get_ffdhe_params (a:ffdhe_alg) : ffdhe_params_t = allow_inversion ffdhe_alg; match a with | FFDHE2048 -> ffdhe_params_2048 | FFDHE3072 -> ffdhe_params_3072 | FFDHE4096 -> ffdhe_params_4096 | FFDHE6144 -> ffdhe_params_6144 | FFDHE8192 -> ffdhe_params_8192 let ffdhe_len (a:ffdhe_alg) : x:size_pos{x <= 1024} = allow_inversion ffdhe_alg; match a with | FFDHE2048 -> 256 | FFDHE3072 -> 384 | FFDHE4096 -> 512 | FFDHE6144 -> 768 | FFDHE8192 -> 1024 val ffdhe_g2_lemma: unit -> Lemma (nat_from_bytes_be (of_list list_ffdhe_g2) = 2) let ffdhe_g2_lemma () = let g = of_list list_ffdhe_g2 in assert_norm (Seq.index (Seq.seq_of_list list_ffdhe_g2) 0 = 0x02uy); nat_from_intseq_be_lemma0 g val ffdhe_p_lemma0: a:ffdhe_alg -> Lemma (let ffdhe_p = get_ffdhe_params a in let len = ffdhe_len a in let p = Mk_ffdhe_params?.ffdhe_p ffdhe_p in Seq.index p (len - 1) == 0xffuy)
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.NatMod.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "FStar.UInt8.fsti.checked", "FStar.Seq.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.List.Tot.fst.checked" ], "interface_file": false, "source_file": "Spec.FFDHE.fst" }
[ { "abbrev": false, "full_module": "Lib.ByteSequence", "short_module": null }, { "abbrev": false, "full_module": "Lib.Sequence", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Spec", "short_module": null }, { "abbrev": false, "full_module": "Spec", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
a: Spec.FFDHE.ffdhe_alg -> FStar.Pervasives.Lemma (ensures (let ffdhe_p = Spec.FFDHE.get_ffdhe_params a in let len = Spec.FFDHE.ffdhe_len a in let p = Mk_ffdhe_params?.ffdhe_p ffdhe_p in FStar.Seq.Base.index p (len - 1) == 0xffuy))
FStar.Pervasives.Lemma
[ "lemma" ]
[]
[ "Spec.FFDHE.ffdhe_alg", "Prims._assert", "Prims.eq2", "FStar.UInt8.t", "FStar.Seq.Base.index", "Lib.IntTypes.int_t", "Lib.IntTypes.U8", "Lib.IntTypes.PUB", "FStar.Seq.Base.seq_of_list", "Spec.FFDHE.list_ffdhe_p2048", "FStar.UInt8.__uint_to_t", "Prims.unit", "FStar.Pervasives.assert_norm", "FStar.List.Tot.Base.index", "Lib.Sequence.seq", "Lib.IntTypes.pub_uint8", "Prims.l_or", "Prims.nat", "FStar.Seq.Base.length", "Spec.FFDHE.__proj__Mk_ffdhe_params__item__ffdhe_p_len", "Prims.l_and", "FStar.List.Tot.Base.length", "FStar.Seq.Base.seq", "Lib.Sequence.to_seq", "Lib.Sequence.of_list", "Spec.FFDHE.list_ffdhe_p3072", "Spec.FFDHE.list_ffdhe_p4096", "Spec.FFDHE.list_ffdhe_p6144", "Spec.FFDHE.list_ffdhe_p8192", "FStar.Pervasives.allow_inversion", "Lib.Sequence.lseq", "Spec.FFDHE.__proj__Mk_ffdhe_params__item__ffdhe_p", "Prims.pos", "Prims.b2t", "Prims.op_LessThanOrEqual", "Prims.op_Subtraction", "Prims.pow2", "Spec.FFDHE.ffdhe_len", "Spec.FFDHE.ffdhe_params_t", "Spec.FFDHE.get_ffdhe_params" ]
[]
false
false
true
false
false
let ffdhe_p_lemma0 a =
let ffdhe_p = get_ffdhe_params a in let len = ffdhe_len a in let p = Mk_ffdhe_params?.ffdhe_p ffdhe_p in allow_inversion ffdhe_alg; match a with | FFDHE2048 -> assert (p == of_list list_ffdhe_p2048); assert_norm (List.Tot.index list_ffdhe_p2048 255 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p2048) 255 == 0xffuy) | FFDHE3072 -> assert (p == of_list list_ffdhe_p3072); assert_norm (List.Tot.index list_ffdhe_p3072 383 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p3072) 383 == 0xffuy) | FFDHE4096 -> assert (p == of_list list_ffdhe_p4096); assert_norm (List.Tot.index list_ffdhe_p4096 511 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p4096) 511 == 0xffuy) | FFDHE6144 -> assert (p == of_list list_ffdhe_p6144); assert_norm (List.Tot.index list_ffdhe_p6144 767 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p6144) 767 == 0xffuy) | FFDHE8192 -> assert (p == of_list list_ffdhe_p8192); assert_norm (List.Tot.index list_ffdhe_p8192 1023 == 0xffuy); assert (Seq.index (Seq.seq_of_list list_ffdhe_p8192) 1023 == 0xffuy)
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag7
val tag7:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag7:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 194, "start_col": 0, "start_line": 191 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag7:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag7_len
val tag7_len:(x: UInt32.t{UInt32.v x = B.length tag7})
val tag7_len:(x: UInt32.t{UInt32.v x = B.length tag7})
let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 197, "start_col": 22, "start_line": 196 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag7}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag7_len:(x: UInt32.t{UInt32.v x = B.length tag7}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag8
val tag8:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag8:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 218, "start_col": 0, "start_line": 215 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag8:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key7
val key7:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key7:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 186, "start_col": 0, "start_line": 183 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key7:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key8_len
val key8_len:(x: UInt32.t{UInt32.v x = B.length key8})
val key8_len:(x: UInt32.t{UInt32.v x = B.length key8})
let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 213, "start_col": 22, "start_line": 212 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key8}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key8_len:(x: UInt32.t{UInt32.v x = B.length key8}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key8
val key8:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key8:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 210, "start_col": 0, "start_line": 207 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key8:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input8_len
val input8_len:(x: UInt32.t{UInt32.v x = B.length input8})
val input8_len:(x: UInt32.t{UInt32.v x = B.length input8})
let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 7, "end_line": 205, "start_col": 22, "start_line": 204 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input8}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input8_len:(x: UInt32.t{UInt32.v x = B.length input8}) =
112ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag8_len
val tag8_len:(x: UInt32.t{UInt32.v x = B.length tag8})
val tag8_len:(x: UInt32.t{UInt32.v x = B.length tag8})
let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 221, "start_col": 22, "start_line": 220 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag8}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag8_len:(x: UInt32.t{UInt32.v x = B.length tag8}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input7
val input7:(b: B.buffer UInt8.t {B.length b = 96 /\ B.recallable b})
val input7:(b: B.buffer UInt8.t {B.length b = 96 /\ B.recallable b})
let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 178, "start_col": 0, "start_line": 175 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 96 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input7:(b: B.buffer UInt8.t {B.length b = 96 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag10_len
val tag10_len:(x: UInt32.t{UInt32.v x = B.length tag10})
val tag10_len:(x: UInt32.t{UInt32.v x = B.length tag10})
let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 269, "start_col": 22, "start_line": 268 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag10}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag10_len:(x: UInt32.t{UInt32.v x = B.length tag10}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key9_len
val key9_len:(x: UInt32.t{UInt32.v x = B.length key9})
val key9_len:(x: UInt32.t{UInt32.v x = B.length key9})
let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 237, "start_col": 22, "start_line": 236 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key9}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key9_len:(x: UInt32.t{UInt32.v x = B.length key9}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key9
val key9:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key9:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 234, "start_col": 0, "start_line": 231 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key9:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag9_len
val tag9_len:(x: UInt32.t{UInt32.v x = B.length tag9})
val tag9_len:(x: UInt32.t{UInt32.v x = B.length tag9})
let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 245, "start_col": 22, "start_line": 244 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag9}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag9_len:(x: UInt32.t{UInt32.v x = B.length tag9}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input9_len
val input9_len:(x: UInt32.t{UInt32.v x = B.length input9})
val input9_len:(x: UInt32.t{UInt32.v x = B.length input9})
let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 7, "end_line": 229, "start_col": 22, "start_line": 228 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input9}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input9_len:(x: UInt32.t{UInt32.v x = B.length input9}) =
128ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input11_len
val input11_len:(x: UInt32.t{UInt32.v x = B.length input11})
val input11_len:(x: UInt32.t{UInt32.v x = B.length input11})
let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 7, "end_line": 277, "start_col": 22, "start_line": 276 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input11}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input11_len:(x: UInt32.t{UInt32.v x = B.length input11}) =
160ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag9
val tag9:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag9:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 242, "start_col": 0, "start_line": 239 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag9:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input12_len
val input12_len:(x: UInt32.t{UInt32.v x = B.length input12})
val input12_len:(x: UInt32.t{UInt32.v x = B.length input12})
let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 7, "end_line": 301, "start_col": 22, "start_line": 300 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input12}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input12_len:(x: UInt32.t{UInt32.v x = B.length input12}) =
288ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag11_len
val tag11_len:(x: UInt32.t{UInt32.v x = B.length tag11})
val tag11_len:(x: UInt32.t{UInt32.v x = B.length tag11})
let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 293, "start_col": 22, "start_line": 292 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag11}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag11_len:(x: UInt32.t{UInt32.v x = B.length tag11}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag11
val tag11:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag11:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 290, "start_col": 0, "start_line": 287 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag11:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input10_len
val input10_len:(x: UInt32.t{UInt32.v x = B.length input10})
val input10_len:(x: UInt32.t{UInt32.v x = B.length input10})
let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 7, "end_line": 253, "start_col": 22, "start_line": 252 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input10}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input10_len:(x: UInt32.t{UInt32.v x = B.length input10}) =
144ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key11_len
val key11_len:(x: UInt32.t{UInt32.v x = B.length key11})
val key11_len:(x: UInt32.t{UInt32.v x = B.length key11})
let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 285, "start_col": 22, "start_line": 284 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key11}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key11_len:(x: UInt32.t{UInt32.v x = B.length key11}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key10
val key10:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key10:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 258, "start_col": 0, "start_line": 255 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key10:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag10
val tag10:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag10:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 266, "start_col": 0, "start_line": 263 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag10:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Hacl.Impl.K256.GLV.fst
Hacl.Impl.K256.GLV.point_mul_g_double_split_lambda_vartime_noalloc_aux
val point_mul_g_double_split_lambda_vartime_noalloc_aux: out:point -> r1234:lbuffer uint64 16ul -> q1234:lbuffer uint64 60ul -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack unit (requires fun h -> live h out /\ live h r1234 /\ live h q1234 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint out r1234 /\ disjoint out q1234 /\ disjoint out scalar1 /\ disjoint out scalar2 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint r1234 q1234 /\ disjoint r1234 scalar1 /\ disjoint r1234 scalar2 /\ disjoint r1234 p1 /\ disjoint r1234 p2 /\ disjoint q1234 scalar1 /\ disjoint q1234 scalar2 /\ disjoint q1234 p1 /\ disjoint q1234 p2 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc r1234 |+| loc q1234 |+| loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2))))
val point_mul_g_double_split_lambda_vartime_noalloc_aux: out:point -> r1234:lbuffer uint64 16ul -> q1234:lbuffer uint64 60ul -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack unit (requires fun h -> live h out /\ live h r1234 /\ live h q1234 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint out r1234 /\ disjoint out q1234 /\ disjoint out scalar1 /\ disjoint out scalar2 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint r1234 q1234 /\ disjoint r1234 scalar1 /\ disjoint r1234 scalar2 /\ disjoint r1234 p1 /\ disjoint r1234 p2 /\ disjoint q1234 scalar1 /\ disjoint q1234 scalar2 /\ disjoint q1234 p1 /\ disjoint q1234 p2 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc r1234 |+| loc q1234 |+| loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2))))
let point_mul_g_double_split_lambda_vartime_noalloc_aux out r1234 q1234 scalar1 scalar2 p1 p2 = let r1 = sub r1234 0ul 4ul in let r2 = sub r1234 4ul 4ul in let r3 = sub r1234 8ul 4ul in let r4 = sub r1234 12ul 4ul in let q1 = sub q1234 0ul 15ul in let q2 = sub q1234 15ul 15ul in let q3 = sub q1234 30ul 15ul in let q4 = sub q1234 45ul 15ul in point_mul_g_double_split_lambda_vartime_noalloc out r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2
{ "file_name": "code/k256/Hacl.Impl.K256.GLV.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 53, "end_line": 517, "start_col": 0, "start_line": 506 }
module Hacl.Impl.K256.GLV open FStar.HyperStack open FStar.HyperStack.ST open FStar.Mul open Lib.IntTypes open Lib.Buffer module ST = FStar.HyperStack.ST module LSeq = Lib.Sequence module LE = Lib.Exponentiation module SE = Spec.Exponentiation module BE = Hacl.Impl.Exponentiation module ME = Hacl.Impl.MultiExponentiation module PT = Hacl.Impl.PrecompTable module S = Spec.K256 module SL = Spec.K256.Lemmas module SG = Hacl.Spec.K256.GLV module SGL = Hacl.Spec.K256.GLV.Lemmas module PML = Hacl.Spec.K256.ECSM.Lemmas module PM = Hacl.Impl.K256.PointMul open Hacl.K256.Field open Hacl.K256.Scalar open Hacl.Impl.K256.Point open Hacl.Impl.K256.GLV.Constants include Hacl.Impl.K256.Group include Hacl.K256.PrecompTable #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" let _: squash(pow2 5 = 32) = assert_norm (pow2 5 = 32) let _: squash(pow2 128 < S.q) = assert_norm (pow2 128 < S.q) inline_for_extraction noextract let table_inv_w5 : BE.table_inv_t U64 15ul 32ul = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in BE.table_inv_precomp len ctx_len k l table_len inline_for_extraction noextract let table_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (point_eval_lseq q) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]Q or [r_small](-Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_neg_inv_precomp q is_negate) let lprecomp_get_vartime_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // -[r_small]Q = [r_small](-Q) SGL.aff_point_negate_cond_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h2 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (point_eval_lseq q) is_negate)) (v r_small)) inline_for_extraction noextract let table_lambda_neg_inv_precomp (q:LSeq.lseq uint64 15) (is_negate:bool) : BE.table_inv_t U64 15ul 32ul = fun a table -> point_eval_lseq a == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate /\ (forall (j:nat{j < 32}). PT.precomp_table_inv 15ul 0ul mk_k256_concrete_ops q 32ul table j) // This function returns [r_small]([lambda]Q) or [r_small](-[lambda]Q) // using a precomputed table [0; Q; 2Q; ...; 15Q] inline_for_extraction noextract val lprecomp_get_vartime_lambda_neg: q:Ghost.erased (LSeq.lseq uint64 15){point_inv_lseq q} -> is_negate:bool -> BE.pow_a_to_small_b_st U64 15ul 0ul mk_k256_concrete_ops 5ul 32ul (table_lambda_neg_inv_precomp q is_negate) let lprecomp_get_vartime_lambda_neg q is_negate ctx lambda_q table r_small res = let h0 = ST.get () in assert (table_lambda_neg_inv_precomp q is_negate lambda_q (as_seq h0 table)); // table.[r_small] = [r_small]Q BE.lprecomp_get_vartime 15ul 0ul mk_k256_concrete_ops 5ul 32ul ctx q table r_small res; SE.pow_lemma S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small); let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 res) == S.to_aff_point (SE.pow S.mk_k256_concrete_ops (point_eval_lseq q) (v r_small))); // -[r_small]Q = [r_small](-Q) point_negate_conditional_vartime res is_negate; let h2 = ST.get () in assert (point_eval h2 res == SG.point_negate_cond (point_eval h1 res) is_negate); SL.to_aff_point_negate_lemma (point_eval h1 res); assert (S.to_aff_point (point_eval h2 res) == SG.aff_point_negate_cond (S.to_aff_point (point_eval h1 res)) is_negate); // [lambda]([r_small]Q) or [lambda]([r_small](-Q)) point_mul_lambda_inplace res; let h3 = ST.get () in assert (point_eval h3 res == SG.point_mul_lambda (point_eval h2 res)); SGL.lemma_glv (point_eval h2 res); assert (S.to_aff_point (point_eval h3 res) == SG.aff_point_mul SG.lambda (S.to_aff_point (point_eval h2 res))); // [r_small]([lambda]Q) or [r_small](-[lambda]Q) SGL.aff_point_negate_cond_lambda_pow_lemma is_negate (point_eval_lseq q) (v r_small); assert (S.to_aff_point (point_eval h3 res) == LE.pow S.mk_k256_comm_monoid (S.to_aff_point (SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq q)) is_negate)) (v r_small)) //------------------------------ inline_for_extraction noextract val point_mul_g_double_split_lambda_table_noalloc: out:point -> table2:lbuffer uint64 (32ul *! 15ul) -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> p1:point -> p2:point -> is_negate1:bool -> is_negate2:bool -> is_negate3:bool -> is_negate4:bool -> Stack unit (requires fun h -> live h out /\ live h table2 /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ eq_or_disjoint q1 q2 /\ eq_or_disjoint q1 q3 /\ eq_or_disjoint q1 q4 /\ eq_or_disjoint q2 q3 /\ eq_or_disjoint q2 q4 /\ eq_or_disjoint q3 q4 /\ disjoint out q1 /\ disjoint out q2 /\ disjoint out q3 /\ disjoint out q4 /\ disjoint out r1 /\ disjoint out r2 /\ disjoint out r3 /\ disjoint out r4 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint table2 out /\ disjoint table2 r1 /\ disjoint table2 r2 /\ disjoint table2 r3 /\ disjoint table2 r4 /\ disjoint table2 p1 /\ disjoint table2 p2 /\ disjoint table2 q1 /\ disjoint table2 q2 /\ disjoint table2 q3 /\ disjoint table2 q4 /\ point_inv h q1 /\ point_inv h q2 /\ point_inv h q3 /\ point_inv h q4 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ point_eval h q1==SG.point_negate_cond (point_eval h p1) is_negate1 /\ point_eval h q2==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p1)) is_negate2 /\ point_eval h q3==SG.point_negate_cond (point_eval h p2) is_negate3 /\ point_eval h q4==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p2)) is_negate4 /\ qas_nat h r1 < S.q /\ qas_nat h r1 < pow2 128 /\ qas_nat h r2 < S.q /\ qas_nat h r2 < pow2 128 /\ qas_nat h r3 < S.q /\ qas_nat h r3 < pow2 128 /\ qas_nat h r4 < S.q /\ qas_nat h r4 < pow2 128 /\ table_inv_w5 (as_seq h p2) (as_seq h table2)) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ refl (as_seq h1 out) == LE.exp_four_fw S.mk_k256_comm_monoid (refl (as_seq h0 q1)) 128 (qas_nat h0 r1) (refl (as_seq h0 q2)) (qas_nat h0 r2) (refl (as_seq h0 q3)) (qas_nat h0 r3) (refl (as_seq h0 q4)) (qas_nat h0 r4) 5) let point_mul_g_double_split_lambda_table_noalloc out table2 r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4 = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let l = 5ul in [@inline_let] let table_len = 32ul in [@inline_let] let bLen = 4ul in [@inline_let] let bBits = 128ul in let h0 = ST.get () in recall_contents precomp_basepoint_table_w5 precomp_basepoint_table_lseq_w5; let h1 = ST.get () in precomp_basepoint_table_lemma_w5 (); assert (table_inv_w5 (as_seq h1 p1) (as_seq h1 precomp_basepoint_table_w5)); assert (table_inv_w5 (as_seq h1 p2) (as_seq h1 table2)); assert (point_eval_lseq (as_seq h1 q1) == SG.point_negate_cond (point_eval_lseq (as_seq h1 p1)) is_negate1); [@inline_let] let table_inv1 : BE.table_inv_t U64 len table_len = table_neg_inv_precomp (as_seq h0 p1) is_negate1 in assert (table_inv1 (as_seq h1 q1) (as_seq h1 precomp_basepoint_table_w5)); assert (point_eval_lseq (as_seq h1 q2) == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq (as_seq h1 p1))) is_negate2); [@inline_let] let table_inv2 : BE.table_inv_t U64 len table_len = table_lambda_neg_inv_precomp (as_seq h0 p1) is_negate2 in assert (table_inv2 (as_seq h1 q2) (as_seq h1 precomp_basepoint_table_w5)); assert (point_eval_lseq (as_seq h1 q3) == SG.point_negate_cond (point_eval_lseq (as_seq h1 p2)) is_negate3); [@inline_let] let table_inv3 : BE.table_inv_t U64 len table_len = table_neg_inv_precomp (as_seq h0 p2) is_negate3 in assert (table_inv3 (as_seq h1 q3) (as_seq h1 table2)); assert (point_eval_lseq (as_seq h1 q4) == SG.point_negate_cond (SG.point_mul_lambda (point_eval_lseq (as_seq h1 p2))) is_negate4); [@inline_let] let table_inv4 : BE.table_inv_t U64 len table_len = table_lambda_neg_inv_precomp (as_seq h0 p2) is_negate4 in assert (table_inv4 (as_seq h1 q4) (as_seq h1 table2)); ME.mk_lexp_four_fw_tables len ctx_len k l table_len table_inv1 table_inv2 table_inv3 table_inv4 (lprecomp_get_vartime_neg (as_seq h0 p1) is_negate1) (lprecomp_get_vartime_lambda_neg (as_seq h0 p1) is_negate2) (lprecomp_get_vartime_neg (as_seq h0 p2) is_negate3) (lprecomp_get_vartime_lambda_neg (as_seq h0 p2) is_negate4) (null uint64) q1 bLen bBits r1 q2 r2 q3 r3 q4 r4 (to_const precomp_basepoint_table_w5) (to_const precomp_basepoint_table_w5) (to_const table2) (to_const table2) out val point_mul_g_double_split_lambda_table: out:point -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> p1:point -> p2:point -> is_negate1:bool -> is_negate2:bool -> is_negate3:bool -> is_negate4:bool -> Stack unit (requires fun h -> live h out /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ eq_or_disjoint q1 q2 /\ eq_or_disjoint q1 q3 /\ eq_or_disjoint q1 q4 /\ eq_or_disjoint q2 q3 /\ eq_or_disjoint q2 q4 /\ eq_or_disjoint q3 q4 /\ disjoint out q1 /\ disjoint out q2 /\ disjoint out q3 /\ disjoint out q4 /\ disjoint out r1 /\ disjoint out r2 /\ disjoint out r3 /\ disjoint out r4 /\ disjoint out p1 /\ disjoint out p2 /\ point_inv h q1 /\ point_inv h q2 /\ point_inv h q3 /\ point_inv h q4 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ point_eval h q1==SG.point_negate_cond (point_eval h p1) is_negate1 /\ point_eval h q2==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p1)) is_negate2 /\ point_eval h q3==SG.point_negate_cond (point_eval h p2) is_negate3 /\ point_eval h q4==SG.point_negate_cond (SG.point_mul_lambda (point_eval h p2)) is_negate4 /\ qas_nat h r1 < S.q /\ qas_nat h r1 < pow2 128 /\ qas_nat h r2 < S.q /\ qas_nat h r2 < pow2 128 /\ qas_nat h r3 < S.q /\ qas_nat h r3 < pow2 128 /\ qas_nat h r4 < S.q /\ qas_nat h r4 < pow2 128) (ensures fun h0 _ h1 -> modifies (loc out) h0 h1 /\ point_inv h1 out /\ refl (as_seq h1 out) == LE.exp_four_fw S.mk_k256_comm_monoid (refl (as_seq h0 q1)) 128 (qas_nat h0 r1) (refl (as_seq h0 q2)) (qas_nat h0 r2) (refl (as_seq h0 q3)) (qas_nat h0 r3) (refl (as_seq h0 q4)) (qas_nat h0 r4) 5) [@CInline] let point_mul_g_double_split_lambda_table out r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4 = [@inline_let] let len = 15ul in [@inline_let] let ctx_len = 0ul in [@inline_let] let k = mk_k256_concrete_ops in [@inline_let] let table_len = 32ul in let h0 = ST.get () in push_frame (); let table2 = create (table_len *! len) (u64 0) in PT.lprecomp_table len ctx_len k (null uint64) p2 table_len table2; point_mul_g_double_split_lambda_table_noalloc out table2 r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_negate1 is_negate2 is_negate3 is_negate4; let h1 = ST.get () in assert (modifies (loc out |+| loc table2) h0 h1); pop_frame (); let h2 = ST.get () in assert (modifies (loc out) h0 h2) inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_endo_split: r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack (bool & bool & bool & bool) (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint r1 q1 /\ disjoint r1 r2 /\ disjoint r1 q2 /\ disjoint r1 r3 /\ disjoint r1 q3 /\ disjoint r1 r4 /\ disjoint r1 q4 /\ disjoint r1 scalar1 /\ disjoint r1 scalar2 /\ disjoint r1 p1 /\ disjoint r1 p2 /\ disjoint q1 r2 /\ disjoint q1 q2 /\ disjoint q1 r3 /\ disjoint q1 q3 /\ disjoint q1 r4 /\ disjoint q1 q4 /\ disjoint q1 scalar1 /\ disjoint q1 scalar2 /\ disjoint q1 p1 /\ disjoint q1 p2 /\ disjoint r2 q2 /\ disjoint r2 r3 /\ disjoint r2 q3 /\ disjoint r2 r4 /\ disjoint r2 q4 /\ disjoint r2 scalar1 /\ disjoint r2 scalar2 /\ disjoint r2 p1 /\ disjoint r2 p2 /\ disjoint q2 r3 /\ disjoint q2 q3 /\ disjoint q2 r4 /\ disjoint q2 q4 /\ disjoint q2 scalar1 /\ disjoint q2 scalar2 /\ disjoint q2 p1 /\ disjoint q2 p2 /\ disjoint r3 q3 /\ disjoint r3 r4 /\ disjoint r3 q4 /\ disjoint r3 scalar1 /\ disjoint r3 scalar2 /\ disjoint r3 p1 /\ disjoint r3 p2 /\ disjoint q3 r4 /\ disjoint q3 q4 /\ disjoint q3 scalar1 /\ disjoint q3 scalar2 /\ disjoint q3 p1 /\ disjoint q3 p2 /\ disjoint r4 q4 /\ disjoint r4 scalar1 /\ disjoint r4 scalar2 /\ disjoint r4 p1 /\ disjoint r4 p2 /\ disjoint q4 scalar1 /\ disjoint q4 scalar2 /\ disjoint q4 p1 /\ disjoint q4 p2 /\ point_inv h p1 /\ point_inv h p2 /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 (is_high1, is_high2, is_high3, is_high4) h1 -> modifies (loc r1 |+| loc r2 |+| loc r3 |+| loc r4 |+| loc q1 |+| loc q2 |+| loc q3 |+| loc q4) h0 h1 /\ point_inv h1 q1 /\ point_inv h1 q2 /\ point_inv h1 q3 /\ point_inv h1 q4 /\ (let r1_s0, r2_s0 = SG.scalar_split_lambda (qas_nat h0 scalar1) in let r3_s0, r4_s0 = SG.scalar_split_lambda (qas_nat h0 scalar2) in let r1_s, q1_s, r2_s, q2_s = SG.ecmult_endo_split (qas_nat h0 scalar1) (point_eval h0 p1) in let r3_s, q3_s, r4_s, q4_s = SG.ecmult_endo_split (qas_nat h0 scalar2) (point_eval h0 p2) in qas_nat h1 r1 == r1_s /\ qas_nat h1 r2 == r2_s /\ qas_nat h1 r3 == r3_s /\ qas_nat h1 r4 == r4_s /\ point_eval h1 q1 == q1_s /\ point_eval h1 q2 == q2_s /\ point_eval h1 q3 == q3_s /\ point_eval h1 q4 == q4_s /\ is_high1 == S.scalar_is_high r1_s0 /\ is_high2 == S.scalar_is_high r2_s0 /\ is_high3 == S.scalar_is_high r3_s0 /\ is_high4 == S.scalar_is_high r4_s0)) let point_mul_g_double_split_lambda_vartime_endo_split r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 = let is_high1, is_high2 = ecmult_endo_split r1 r2 q1 q2 scalar1 p1 in let is_high3, is_high4 = ecmult_endo_split r3 r4 q3 q4 scalar2 p2 in (is_high1, is_high2, is_high3, is_high4) val check_ecmult_endo_split (r1 r2 r3 r4 : qelem) : Stack bool (requires fun h -> live h r1 /\ live h r2 /\ live h r3 /\ live h r4) (ensures fun h0 b h1 -> modifies0 h0 h1 /\ b == (qas_nat h0 r1 < pow2 128 && qas_nat h0 r2 < pow2 128 && qas_nat h0 r3 < pow2 128 && qas_nat h0 r4 < pow2 128)) [@CInline] let check_ecmult_endo_split r1 r2 r3 r4 = let b1 = is_qelem_lt_pow2_128_vartime r1 in let b2 = is_qelem_lt_pow2_128_vartime r2 in let b3 = is_qelem_lt_pow2_128_vartime r3 in let b4 = is_qelem_lt_pow2_128_vartime r4 in b1 && b2 && b3 && b4 inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_noalloc: out:point -> r1:qelem -> q1:point -> r2:qelem -> q2:point -> r3:qelem -> q3:point -> r4:qelem -> q4:point -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack unit (requires fun h -> live h out /\ live h r1 /\ live h r2 /\ live h r3 /\ live h r4 /\ live h q1 /\ live h q2 /\ live h q3 /\ live h q4 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint out r1 /\ disjoint out q1 /\ disjoint out r2 /\ disjoint out q2 /\ disjoint out r3 /\ disjoint out q3 /\ disjoint out r4 /\ disjoint out q4 /\ disjoint out scalar1 /\ disjoint out scalar2 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint r1 q1 /\ disjoint r1 r2 /\ disjoint r1 q2 /\ disjoint r1 r3 /\ disjoint r1 q3 /\ disjoint r1 r4 /\ disjoint r1 q4 /\ disjoint r1 scalar1 /\ disjoint r1 scalar2 /\ disjoint r1 p1 /\ disjoint r1 p2 /\ disjoint q1 r2 /\ disjoint q1 q2 /\ disjoint q1 r3 /\ disjoint q1 q3 /\ disjoint q1 r4 /\ disjoint q1 q4 /\ disjoint q1 scalar1 /\ disjoint q1 scalar2 /\ disjoint q1 p1 /\ disjoint q1 p2 /\ disjoint r2 q2 /\ disjoint r2 r3 /\ disjoint r2 q3 /\ disjoint r2 r4 /\ disjoint r2 q4 /\ disjoint r2 scalar1 /\ disjoint r2 scalar2 /\ disjoint r2 p1 /\ disjoint r2 p2 /\ disjoint q2 r3 /\ disjoint q2 q3 /\ disjoint q2 r4 /\ disjoint q2 q4 /\ disjoint q2 scalar1 /\ disjoint q2 scalar2 /\ disjoint q2 p1 /\ disjoint q2 p2 /\ disjoint r3 q3 /\ disjoint r3 r4 /\ disjoint r3 q4 /\ disjoint r3 scalar1 /\ disjoint r3 scalar2 /\ disjoint r3 p1 /\ disjoint r3 p2 /\ disjoint q3 r4 /\ disjoint q3 q4 /\ disjoint q3 scalar1 /\ disjoint q3 scalar2 /\ disjoint q3 p1 /\ disjoint q3 p2 /\ disjoint r4 q4 /\ disjoint r4 scalar1 /\ disjoint r4 scalar2 /\ disjoint r4 p1 /\ disjoint r4 p2 /\ disjoint q4 scalar1 /\ disjoint q4 scalar2 /\ disjoint q4 p1 /\ disjoint q4 p2 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc r1 |+| loc r2 |+| loc r3 |+| loc r4 |+| loc q1 |+| loc q2 |+| loc q3 |+| loc q4 |+| loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2)))) let point_mul_g_double_split_lambda_vartime_noalloc out r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 = let h0 = ST.get () in let is_high1, is_high2, is_high3, is_high4 = point_mul_g_double_split_lambda_vartime_endo_split r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2 in let is_r1234_valid = check_ecmult_endo_split r1 r2 r3 r4 in if is_r1234_valid then point_mul_g_double_split_lambda_table out r1 q1 r2 q2 r3 q3 r4 q4 p1 p2 is_high1 is_high2 is_high3 is_high4 else PM.point_mul_g_double_vartime out scalar1 scalar2 p2; let h1 = ST.get () in assert (S.to_aff_point (point_eval h1 out) == SGL.aff_proj_point_mul_double_split_lambda (qas_nat h0 scalar1) (point_eval h0 p1) (qas_nat h0 scalar2) (point_eval h0 p2)); SGL.lemma_aff_proj_point_mul_double_split_lambda (qas_nat h0 scalar1) (point_eval h0 p1) (qas_nat h0 scalar2) (point_eval h0 p2) inline_for_extraction noextract val point_mul_g_double_split_lambda_vartime_noalloc_aux: out:point -> r1234:lbuffer uint64 16ul -> q1234:lbuffer uint64 60ul -> scalar1:qelem -> scalar2:qelem -> p1:point -> p2:point -> Stack unit (requires fun h -> live h out /\ live h r1234 /\ live h q1234 /\ live h p1 /\ live h p2 /\ live h scalar1 /\ live h scalar2 /\ disjoint out r1234 /\ disjoint out q1234 /\ disjoint out scalar1 /\ disjoint out scalar2 /\ disjoint out p1 /\ disjoint out p2 /\ disjoint r1234 q1234 /\ disjoint r1234 scalar1 /\ disjoint r1234 scalar2 /\ disjoint r1234 p1 /\ disjoint r1234 p2 /\ disjoint q1234 scalar1 /\ disjoint q1234 scalar2 /\ disjoint q1234 p1 /\ disjoint q1234 p2 /\ point_inv h p1 /\ point_inv h p2 /\ point_eval h p1 == S.g /\ qas_nat h scalar1 < S.q /\ qas_nat h scalar2 < S.q) (ensures fun h0 _ h1 -> modifies (loc r1234 |+| loc q1234 |+| loc out) h0 h1 /\ point_inv h1 out /\ S.to_aff_point (point_eval h1 out) == S.aff_point_add (S.aff_point_mul (qas_nat h0 scalar1) (S.to_aff_point (point_eval h0 p1))) (S.aff_point_mul (qas_nat h0 scalar2) (S.to_aff_point (point_eval h0 p2))))
{ "checked_file": "/", "dependencies": [ "Spec.K256.Lemmas.fsti.checked", "Spec.K256.fst.checked", "Spec.Exponentiation.fsti.checked", "prims.fst.checked", "Lib.Sequence.fsti.checked", "Lib.IntTypes.fsti.checked", "Lib.Exponentiation.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.K256.GLV.Lemmas.fst.checked", "Hacl.Spec.K256.GLV.fst.checked", "Hacl.Spec.K256.ECSM.Lemmas.fst.checked", "Hacl.K256.Scalar.fsti.checked", "Hacl.K256.PrecompTable.fsti.checked", "Hacl.K256.Field.fsti.checked", "Hacl.Impl.PrecompTable.fsti.checked", "Hacl.Impl.MultiExponentiation.fsti.checked", "Hacl.Impl.K256.PointMul.fsti.checked", "Hacl.Impl.K256.Point.fsti.checked", "Hacl.Impl.K256.Group.fst.checked", "Hacl.Impl.K256.GLV.Constants.fsti.checked", "Hacl.Impl.Exponentiation.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.fst.checked", "FStar.Ghost.fsti.checked" ], "interface_file": true, "source_file": "Hacl.Impl.K256.GLV.fst" }
[ { "abbrev": false, "full_module": "Hacl.K256.PrecompTable", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Group", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.GLV.Constants", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Impl.K256.PointMul", "short_module": "PM" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.ECSM.Lemmas", "short_module": "PML" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV.Lemmas", "short_module": "SGL" }, { "abbrev": true, "full_module": "Hacl.Spec.K256.GLV", "short_module": "SG" }, { "abbrev": true, "full_module": "Spec.K256.Lemmas", "short_module": "SL" }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": true, "full_module": "Hacl.Impl.PrecompTable", "short_module": "PT" }, { "abbrev": true, "full_module": "Hacl.Impl.MultiExponentiation", "short_module": "ME" }, { "abbrev": true, "full_module": "Hacl.Impl.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Spec.Exponentiation", "short_module": "SE" }, { "abbrev": true, "full_module": "Lib.Exponentiation", "short_module": "LE" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256.Point", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Scalar", "short_module": null }, { "abbrev": false, "full_module": "Hacl.K256.Field", "short_module": null }, { "abbrev": true, "full_module": "Spec.K256", "short_module": "S" }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.ST", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.K256", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
out: Hacl.Impl.K256.Point.point -> r1234: Lib.Buffer.lbuffer Lib.IntTypes.uint64 16ul -> q1234: Lib.Buffer.lbuffer Lib.IntTypes.uint64 60ul -> scalar1: Hacl.K256.Scalar.qelem -> scalar2: Hacl.K256.Scalar.qelem -> p1: Hacl.Impl.K256.Point.point -> p2: Hacl.Impl.K256.Point.point -> FStar.HyperStack.ST.Stack Prims.unit
FStar.HyperStack.ST.Stack
[]
[]
[ "Hacl.Impl.K256.Point.point", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint64", "FStar.UInt32.__uint_to_t", "Hacl.K256.Scalar.qelem", "Hacl.Impl.K256.GLV.point_mul_g_double_split_lambda_vartime_noalloc", "Prims.unit", "Lib.Buffer.lbuffer_t", "Lib.Buffer.MUT", "Lib.IntTypes.int_t", "Lib.IntTypes.U64", "Lib.IntTypes.SEC", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.sub" ]
[]
false
true
false
false
false
let point_mul_g_double_split_lambda_vartime_noalloc_aux out r1234 q1234 scalar1 scalar2 p1 p2 =
let r1 = sub r1234 0ul 4ul in let r2 = sub r1234 4ul 4ul in let r3 = sub r1234 8ul 4ul in let r4 = sub r1234 12ul 4ul in let q1 = sub q1234 0ul 15ul in let q2 = sub q1234 15ul 15ul in let q3 = sub q1234 30ul 15ul in let q4 = sub q1234 45ul 15ul in point_mul_g_double_split_lambda_vartime_noalloc out r1 q1 r2 q2 r3 q3 r4 q4 scalar1 scalar2 p1 p2
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key12_len
val key12_len:(x: UInt32.t{UInt32.v x = B.length key12})
val key12_len:(x: UInt32.t{UInt32.v x = B.length key12})
let key12_len: (x:UInt32.t { UInt32.v x = B.length key12 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 309, "start_col": 22, "start_line": 308 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul let key12: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key12}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key12_len:(x: UInt32.t{UInt32.v x = B.length key12}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key11
val key11:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key11:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 282, "start_col": 0, "start_line": 279 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key11:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag12
val tag12:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag12:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag12: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x53uy; 0xf6uy; 0xe8uy; 0x28uy; 0xa2uy; 0xf0uy; 0xfeuy; 0x0euy; 0xe8uy; 0x15uy; 0xbfuy; 0x0buy; 0xd5uy; 0x84uy; 0x1auy; 0x34uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 314, "start_col": 0, "start_line": 311 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul let key12: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key12_len: (x:UInt32.t { UInt32.v x = B.length key12 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag12:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x53uy; 0xf6uy; 0xe8uy; 0x28uy; 0xa2uy; 0xf0uy; 0xfeuy; 0x0euy; 0xe8uy; 0x15uy; 0xbfuy; 0x0buy; 0xd5uy; 0x84uy; 0x1auy; 0x34uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag12_len
val tag12_len:(x: UInt32.t{UInt32.v x = B.length tag12})
val tag12_len:(x: UInt32.t{UInt32.v x = B.length tag12})
let tag12_len: (x:UInt32.t { UInt32.v x = B.length tag12 }) = 16ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 317, "start_col": 22, "start_line": 316 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul let key12: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key12_len: (x:UInt32.t { UInt32.v x = B.length key12 }) = 32ul let tag12: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x53uy; 0xf6uy; 0xe8uy; 0x28uy; 0xa2uy; 0xf0uy; 0xfeuy; 0x0euy; 0xe8uy; 0x15uy; 0xbfuy; 0x0buy; 0xd5uy; 0x84uy; 0x1auy; 0x34uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.tag12}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let tag12_len:(x: UInt32.t{UInt32.v x = B.length tag12}) =
16ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key10_len
val key10_len:(x: UInt32.t{UInt32.v x = B.length key10})
val key10_len:(x: UInt32.t{UInt32.v x = B.length key10})
let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 6, "end_line": 261, "start_col": 22, "start_line": 260 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.key10}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let key10_len:(x: UInt32.t{UInt32.v x = B.length key10}) =
32ul
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input8
val input8:(b: B.buffer UInt8.t {B.length b = 112 /\ B.recallable b})
val input8:(b: B.buffer UInt8.t {B.length b = 112 /\ B.recallable b})
let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 202, "start_col": 0, "start_line": 199 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 112 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let input8:(b: B.buffer UInt8.t {B.length b = 112 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key13
val key13:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key13:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key13: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 330, "start_col": 0, "start_line": 327 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul let key12: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key12_len: (x:UInt32.t { UInt32.v x = B.length key12 }) = 32ul let tag12: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x53uy; 0xf6uy; 0xe8uy; 0x28uy; 0xa2uy; 0xf0uy; 0xfeuy; 0x0euy; 0xe8uy; 0x15uy; 0xbfuy; 0x0buy; 0xd5uy; 0x84uy; 0x1auy; 0x34uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag12_len: (x:UInt32.t { UInt32.v x = B.length tag12 }) = 16ul let input13: (b: B.buffer UInt8.t { B.length b = 320 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 320); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input13_len: (x:UInt32.t { UInt32.v x = B.length input13 }) = 320ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key13:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.tag13
val tag13:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
val tag13:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b})
let tag13: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xb8uy; 0x46uy; 0xd4uy; 0x4euy; 0x9buy; 0xbduy; 0x53uy; 0xceuy; 0xdfuy; 0xfbuy; 0xfbuy; 0xb6uy; 0xb7uy; 0xfauy; 0x49uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 338, "start_col": 0, "start_line": 335 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul let key12: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key12_len: (x:UInt32.t { UInt32.v x = B.length key12 }) = 32ul let tag12: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x53uy; 0xf6uy; 0xe8uy; 0x28uy; 0xa2uy; 0xf0uy; 0xfeuy; 0x0euy; 0xe8uy; 0x15uy; 0xbfuy; 0x0buy; 0xd5uy; 0x84uy; 0x1auy; 0x34uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag12_len: (x:UInt32.t { UInt32.v x = B.length tag12 }) = 16ul let input13: (b: B.buffer UInt8.t { B.length b = 320 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 320); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input13_len: (x:UInt32.t { UInt32.v x = B.length input13 }) = 320ul let key13: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key13_len: (x:UInt32.t { UInt32.v x = B.length key13 }) = 32ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 16 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let tag13:(b: B.buffer UInt8.t {B.length b = 16 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0xb8uy; 0x46uy; 0xd4uy; 0x4euy; 0x9buy; 0xbduy; 0x53uy; 0xceuy; 0xdfuy; 0xfbuy; 0xfbuy; 0xb6uy; 0xb7uy; 0xfauy; 0x49uy; 0x33uy ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.key12
val key12:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
val key12:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b})
let key12: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 38, "end_line": 306, "start_col": 0, "start_line": 303 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
b: LowStar.Buffer.buffer FStar.UInt8.t {LowStar.Monotonic.Buffer.length b = 32 /\ LowStar.Monotonic.Buffer.recallable b}
Prims.Tot
[ "total" ]
[]
[ "LowStar.Buffer.gcmalloc_of_list", "FStar.UInt8.t", "FStar.Monotonic.HyperHeap.root", "LowStar.Monotonic.Buffer.mbuffer", "LowStar.Buffer.trivial_preorder", "Prims.l_and", "Prims.eq2", "Prims.nat", "LowStar.Monotonic.Buffer.length", "FStar.Pervasives.normalize_term", "FStar.List.Tot.Base.length", "Prims.b2t", "Prims.op_Negation", "LowStar.Monotonic.Buffer.g_is_null", "FStar.Monotonic.HyperHeap.rid", "LowStar.Monotonic.Buffer.frameOf", "LowStar.Monotonic.Buffer.recallable", "Prims.unit", "FStar.Pervasives.assert_norm", "Prims.op_Equality", "Prims.int", "LowStar.Buffer.buffer", "Prims.list", "Prims.Cons", "FStar.UInt8.__uint_to_t", "Prims.Nil" ]
[]
false
false
false
false
false
let key12:(b: B.buffer UInt8.t {B.length b = 32 /\ B.recallable b}) =
[@@ inline_let ]let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l
false
Test.Vectors.Poly1305.fst
Test.Vectors.Poly1305.input13_len
val input13_len:(x: UInt32.t{UInt32.v x = B.length input13})
val input13_len:(x: UInt32.t{UInt32.v x = B.length input13})
let input13_len: (x:UInt32.t { UInt32.v x = B.length input13 }) = 320ul
{ "file_name": "providers/test/vectors/Test.Vectors.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }
{ "end_col": 7, "end_line": 325, "start_col": 22, "start_line": 324 }
module Test.Vectors.Poly1305 module B = LowStar.Buffer #set-options "--max_fuel 0 --max_ifuel 0" let input0: (b: B.buffer UInt8.t { B.length b = 34 /\ B.recallable b }) = [@inline_let] let l = [ 0x43uy; 0x72uy; 0x79uy; 0x70uy; 0x74uy; 0x6fuy; 0x67uy; 0x72uy; 0x61uy; 0x70uy; 0x68uy; 0x69uy; 0x63uy; 0x20uy; 0x46uy; 0x6fuy; 0x72uy; 0x75uy; 0x6duy; 0x20uy; 0x52uy; 0x65uy; 0x73uy; 0x65uy; 0x61uy; 0x72uy; 0x63uy; 0x68uy; 0x20uy; 0x47uy; 0x72uy; 0x6fuy; 0x75uy; 0x70uy; ] in assert_norm (List.Tot.length l = 34); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input0_len: (x:UInt32.t { UInt32.v x = B.length input0 }) = 34ul let key0: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0xd6uy; 0xbeuy; 0x78uy; 0x57uy; 0x55uy; 0x6duy; 0x33uy; 0x7fuy; 0x44uy; 0x52uy; 0xfeuy; 0x42uy; 0xd5uy; 0x06uy; 0xa8uy; 0x01uy; 0x03uy; 0x80uy; 0x8auy; 0xfbuy; 0x0duy; 0xb2uy; 0xfduy; 0x4auy; 0xbfuy; 0xf6uy; 0xafuy; 0x41uy; 0x49uy; 0xf5uy; 0x1buy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key0_len: (x:UInt32.t { UInt32.v x = B.length key0 }) = 32ul let tag0: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xa8uy; 0x06uy; 0x1duy; 0xc1uy; 0x30uy; 0x51uy; 0x36uy; 0xc6uy; 0xc2uy; 0x2buy; 0x8buy; 0xafuy; 0x0cuy; 0x01uy; 0x27uy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag0_len: (x:UInt32.t { UInt32.v x = B.length tag0 }) = 16ul let input1: (b: B.buffer UInt8.t { B.length b = 2 /\ B.recallable b }) = [@inline_let] let l = [ 0xf3uy; 0xf6uy; ] in assert_norm (List.Tot.length l = 2); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input1_len: (x:UInt32.t { UInt32.v x = B.length input1 }) = 2ul let key1: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x85uy; 0x1fuy; 0xc4uy; 0x0cuy; 0x34uy; 0x67uy; 0xacuy; 0x0buy; 0xe0uy; 0x5cuy; 0xc2uy; 0x04uy; 0x04uy; 0xf3uy; 0xf7uy; 0x00uy; 0x58uy; 0x0buy; 0x3buy; 0x0fuy; 0x94uy; 0x47uy; 0xbbuy; 0x1euy; 0x69uy; 0xd0uy; 0x95uy; 0xb5uy; 0x92uy; 0x8buy; 0x6duy; 0xbcuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key1_len: (x:UInt32.t { UInt32.v x = B.length key1 }) = 32ul let tag1: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xf4uy; 0xc6uy; 0x33uy; 0xc3uy; 0x04uy; 0x4fuy; 0xc1uy; 0x45uy; 0xf8uy; 0x4fuy; 0x33uy; 0x5cuy; 0xb8uy; 0x19uy; 0x53uy; 0xdeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag1_len: (x:UInt32.t { UInt32.v x = B.length tag1 }) = 16ul let input2: (b: B.buffer UInt8.t { B.length b = 0 /\ B.recallable b }) = [@inline_let] let l = [ ] in assert_norm (List.Tot.length l = 0); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input2_len: (x:UInt32.t { UInt32.v x = B.length input2 }) = 0ul let key2: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0xa0uy; 0xf3uy; 0x08uy; 0x00uy; 0x00uy; 0xf4uy; 0x64uy; 0x00uy; 0xd0uy; 0xc7uy; 0xe9uy; 0x07uy; 0x6cuy; 0x83uy; 0x44uy; 0x03uy; 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key2_len: (x:UInt32.t { UInt32.v x = B.length key2 }) = 32ul let tag2: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xdduy; 0x3fuy; 0xabuy; 0x22uy; 0x51uy; 0xf1uy; 0x1auy; 0xc7uy; 0x59uy; 0xf0uy; 0x88uy; 0x71uy; 0x29uy; 0xccuy; 0x2euy; 0xe7uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag2_len: (x:UInt32.t { UInt32.v x = B.length tag2 }) = 16ul let input3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input3_len: (x:UInt32.t { UInt32.v x = B.length input3 }) = 32ul let key3: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key3_len: (x:UInt32.t { UInt32.v x = B.length key3 }) = 32ul let tag3: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x0euy; 0xe1uy; 0xc1uy; 0x6buy; 0xb7uy; 0x3fuy; 0x0fuy; 0x4fuy; 0xd1uy; 0x98uy; 0x81uy; 0x75uy; 0x3cuy; 0x01uy; 0xcduy; 0xbeuy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag3_len: (x:UInt32.t { UInt32.v x = B.length tag3 }) = 16ul let input4: (b: B.buffer UInt8.t { B.length b = 63 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; ] in assert_norm (List.Tot.length l = 63); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input4_len: (x:UInt32.t { UInt32.v x = B.length input4 }) = 63ul let key4: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key4_len: (x:UInt32.t { UInt32.v x = B.length key4 }) = 32ul let tag4: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x51uy; 0x54uy; 0xaduy; 0x0duy; 0x2cuy; 0xb2uy; 0x6euy; 0x01uy; 0x27uy; 0x4fuy; 0xc5uy; 0x11uy; 0x48uy; 0x49uy; 0x1fuy; 0x1buy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag4_len: (x:UInt32.t { UInt32.v x = B.length tag4 }) = 16ul let input5: (b: B.buffer UInt8.t { B.length b = 64 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; ] in assert_norm (List.Tot.length l = 64); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input5_len: (x:UInt32.t { UInt32.v x = B.length input5 }) = 64ul let key5: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key5_len: (x:UInt32.t { UInt32.v x = B.length key5 }) = 32ul let tag5: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag5_len: (x:UInt32.t { UInt32.v x = B.length tag5 }) = 16ul let input6: (b: B.buffer UInt8.t { B.length b = 48 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; ] in assert_norm (List.Tot.length l = 48); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input6_len: (x:UInt32.t { UInt32.v x = B.length input6 }) = 48ul let key6: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key6_len: (x:UInt32.t { UInt32.v x = B.length key6 }) = 32ul let tag6: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag6_len: (x:UInt32.t { UInt32.v x = B.length tag6 }) = 16ul let input7: (b: B.buffer UInt8.t { B.length b = 96 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 96); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input7_len: (x:UInt32.t { UInt32.v x = B.length input7 }) = 96ul let key7: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key7_len: (x:UInt32.t { UInt32.v x = B.length key7 }) = 32ul let tag7: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xbbuy; 0xb6uy; 0x13uy; 0xb2uy; 0xb6uy; 0xd7uy; 0x53uy; 0xbauy; 0x07uy; 0x39uy; 0x5buy; 0x91uy; 0x6auy; 0xaeuy; 0xceuy; 0x15uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag7_len: (x:UInt32.t { UInt32.v x = B.length tag7 }) = 16ul let input8: (b: B.buffer UInt8.t { B.length b = 112 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; ] in assert_norm (List.Tot.length l = 112); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input8_len: (x:UInt32.t { UInt32.v x = B.length input8 }) = 112ul let key8: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key8_len: (x:UInt32.t { UInt32.v x = B.length key8 }) = 32ul let tag8: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xc7uy; 0x94uy; 0xd7uy; 0x05uy; 0x7duy; 0x17uy; 0x78uy; 0xc4uy; 0xbbuy; 0xeeuy; 0x0auy; 0x39uy; 0xb3uy; 0xd9uy; 0x73uy; 0x42uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag8_len: (x:UInt32.t { UInt32.v x = B.length tag8 }) = 16ul let input9: (b: B.buffer UInt8.t { B.length b = 128 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 128); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input9_len: (x:UInt32.t { UInt32.v x = B.length input9 }) = 128ul let key9: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key9_len: (x:UInt32.t { UInt32.v x = B.length key9 }) = 32ul let tag9: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xffuy; 0xbcuy; 0xb9uy; 0xb3uy; 0x71uy; 0x42uy; 0x31uy; 0x52uy; 0xd7uy; 0xfcuy; 0xa5uy; 0xaduy; 0x04uy; 0x2fuy; 0xbauy; 0xa9uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag9_len: (x:UInt32.t { UInt32.v x = B.length tag9 }) = 16ul let input10: (b: B.buffer UInt8.t { B.length b = 144 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; ] in assert_norm (List.Tot.length l = 144); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input10_len: (x:UInt32.t { UInt32.v x = B.length input10 }) = 144ul let key10: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key10_len: (x:UInt32.t { UInt32.v x = B.length key10 }) = 32ul let tag10: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x06uy; 0x9euy; 0xd6uy; 0xb8uy; 0xefuy; 0x0fuy; 0x20uy; 0x7buy; 0x3euy; 0x24uy; 0x3buy; 0xb1uy; 0x01uy; 0x9fuy; 0xe6uy; 0x32uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag10_len: (x:UInt32.t { UInt32.v x = B.length tag10 }) = 16ul let input11: (b: B.buffer UInt8.t { B.length b = 160 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 160); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input11_len: (x:UInt32.t { UInt32.v x = B.length input11 }) = 160ul let key11: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key11_len: (x:UInt32.t { UInt32.v x = B.length key11 }) = 32ul let tag11: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0xccuy; 0xa3uy; 0x39uy; 0xd9uy; 0xa4uy; 0x5fuy; 0xa2uy; 0x36uy; 0x8cuy; 0x2cuy; 0x68uy; 0xb3uy; 0xa4uy; 0x17uy; 0x91uy; 0x33uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag11_len: (x:UInt32.t { UInt32.v x = B.length tag11 }) = 16ul let input12: (b: B.buffer UInt8.t { B.length b = 288 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; ] in assert_norm (List.Tot.length l = 288); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let input12_len: (x:UInt32.t { UInt32.v x = B.length input12 }) = 288ul let key12: (b: B.buffer UInt8.t { B.length b = 32 /\ B.recallable b }) = [@inline_let] let l = [ 0x12uy; 0x97uy; 0x6auy; 0x08uy; 0xc4uy; 0x42uy; 0x6duy; 0x0cuy; 0xe8uy; 0xa8uy; 0x24uy; 0x07uy; 0xc4uy; 0xf4uy; 0x82uy; 0x07uy; 0x80uy; 0xf8uy; 0xc2uy; 0x0auy; 0xa7uy; 0x12uy; 0x02uy; 0xd1uy; 0xe2uy; 0x91uy; 0x79uy; 0xcbuy; 0xcbuy; 0x55uy; 0x5auy; 0x57uy; ] in assert_norm (List.Tot.length l = 32); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let key12_len: (x:UInt32.t { UInt32.v x = B.length key12 }) = 32ul let tag12: (b: B.buffer UInt8.t { B.length b = 16 /\ B.recallable b }) = [@inline_let] let l = [ 0x53uy; 0xf6uy; 0xe8uy; 0x28uy; 0xa2uy; 0xf0uy; 0xfeuy; 0x0euy; 0xe8uy; 0x15uy; 0xbfuy; 0x0buy; 0xd5uy; 0x84uy; 0x1auy; 0x34uy; ] in assert_norm (List.Tot.length l = 16); B.gcmalloc_of_list HyperStack.root l inline_for_extraction let tag12_len: (x:UInt32.t { UInt32.v x = B.length tag12 }) = 16ul let input13: (b: B.buffer UInt8.t { B.length b = 320 /\ B.recallable b }) = [@inline_let] let l = [ 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; 0xabuy; 0x08uy; 0x12uy; 0x72uy; 0x4auy; 0x7fuy; 0x1euy; 0x34uy; 0x27uy; 0x42uy; 0xcbuy; 0xeduy; 0x37uy; 0x4duy; 0x94uy; 0xd1uy; 0x36uy; 0xc6uy; 0xb8uy; 0x79uy; 0x5duy; 0x45uy; 0xb3uy; 0x81uy; 0x98uy; 0x30uy; 0xf2uy; 0xc0uy; 0x44uy; 0x91uy; 0xfauy; 0xf0uy; 0x99uy; 0x0cuy; 0x62uy; 0xe4uy; 0x8buy; 0x80uy; 0x18uy; 0xb2uy; 0xc3uy; 0xe4uy; 0xa0uy; 0xfauy; 0x31uy; 0x34uy; 0xcbuy; 0x67uy; 0xfauy; 0x83uy; 0xe1uy; 0x58uy; 0xc9uy; 0x94uy; 0xd9uy; 0x61uy; 0xc4uy; 0xcbuy; 0x21uy; 0x09uy; 0x5cuy; 0x1buy; 0xf9uy; 0xafuy; 0x48uy; 0x44uy; 0x3duy; 0x0buy; 0xb0uy; 0xd2uy; 0x11uy; 0x09uy; 0xc8uy; 0x9auy; 0x10uy; 0x0buy; 0x5cuy; 0xe2uy; 0xc2uy; 0x08uy; 0x83uy; 0x14uy; 0x9cuy; 0x69uy; 0xb5uy; 0x61uy; 0xdduy; 0x88uy; 0x29uy; 0x8auy; 0x17uy; 0x98uy; 0xb1uy; 0x07uy; 0x16uy; 0xefuy; 0x66uy; 0x3cuy; 0xeauy; 0x19uy; 0x0fuy; 0xfbuy; 0x83uy; 0xd8uy; 0x95uy; 0x93uy; 0xf3uy; 0xf4uy; 0x76uy; 0xb6uy; 0xbcuy; 0x24uy; 0xd7uy; 0xe6uy; 0x79uy; 0x10uy; 0x7euy; 0xa2uy; 0x6auy; 0xdbuy; 0x8cuy; 0xafuy; 0x66uy; 0x52uy; 0xd0uy; 0x65uy; 0x61uy; 0x36uy; 0x81uy; 0x20uy; 0x59uy; 0xa5uy; 0xdauy; 0x19uy; 0x86uy; 0x37uy; 0xcauy; 0xc7uy; 0xc4uy; 0xa6uy; 0x31uy; 0xbeuy; 0xe4uy; 0x66uy; 0x5buy; 0x88uy; 0xd7uy; 0xf6uy; 0x22uy; 0x8buy; 0x11uy; 0xe2uy; 0xe2uy; 0x85uy; 0x79uy; 0xa5uy; 0xc0uy; 0xc1uy; 0xf7uy; 0x61uy; ] in assert_norm (List.Tot.length l = 320); B.gcmalloc_of_list HyperStack.root l
{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "LowStar.Buffer.fst.checked", "FStar.UInt8.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.List.Tot.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": false, "source_file": "Test.Vectors.Poly1305.fst" }
[ { "abbrev": true, "full_module": "LowStar.Buffer", "short_module": "B" }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "Test.Vectors", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]
{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }
false
x: FStar.UInt32.t{FStar.UInt32.v x = LowStar.Monotonic.Buffer.length Test.Vectors.Poly1305.input13}
Prims.Tot
[ "total" ]
[]
[ "FStar.UInt32.__uint_to_t" ]
[]
false
false
false
false
false
let input13_len:(x: UInt32.t{UInt32.v x = B.length input13}) =
320ul
false