module Hacl.Hash.Core.SHA2 open Lib.IntTypes module U32 = FStar.UInt32 module U64 = FStar.UInt64 module U128 = FStar.UInt128 module Cast = FStar.Int.Cast.Full module Constants = Spec.SHA2.Constants module Helpers = Spec.Hash.Definitions module Endianness = FStar.Kremlin.Endianness module Math = FStar.Math.Lemmas module Spec = Spec.SHA2 module M = LowStar.Modifies module S = FStar.Seq module B = LowStar.Buffer module G = FStar.Ghost module HS = FStar.HyperStack module ST = FStar.HyperStack.ST module IB = LowStar.ImmutableBuffer open Spec.Hash.Definitions open LowStar.BufferOps open Hacl.Hash.Lemmas open Hacl.Hash.Definitions friend Spec.SHA2 friend Hacl.Hash.PadFinish #reset-options "--max_fuel 0 --max_ifuel 0" (** Top-level constant arrays for the SHA2 algorithms. *) let h224 = IB.igcmalloc_of_list HS.root Constants.h224_l let h256 = IB.igcmalloc_of_list HS.root Constants.h256_l let h384 = IB.igcmalloc_of_list HS.root Constants.h384_l let h512 = IB.igcmalloc_of_list HS.root Constants.h512_l noextract let h (a: sha2_alg): S.lseq (word a) 8 = match a with | SHA2_224 -> Constants.h224 | SHA2_256 -> Constants.h256 | SHA2_384 -> Constants.h384 | SHA2_512 -> Constants.h512 noextract inline_for_extraction let index_h (a: sha2_alg) (i: U32.t): ST.Stack (word a) (requires (fun _ -> U32.v i < 8)) (ensures (fun h0 r h1 -> B.(modifies loc_none h0 h1) /\ r == S.index (h a) (U32.v i))) = match a with | SHA2_224 -> B.recall h224; IB.recall_contents h224 Constants.h224; h224.(i) | SHA2_256 -> B.recall h256; IB.recall_contents h256 Constants.h256; h256.(i) | SHA2_384 -> B.recall h384; IB.recall_contents h384 Constants.h384; h384.(i) | SHA2_512 -> B.recall h512; IB.recall_contents h512 Constants.h512; h512.(i) open Hacl.Hash.Core.SHA2.Constants (** Alloca *) #set-options "--max_fuel 1" noextract inline_for_extraction val alloca: a:sha2_alg -> alloca_st a noextract inline_for_extraction let alloca a () = [@ inline_let ] let l: list (word a) = Spec.(match a with | SHA2_224 -> Constants.h224_l | SHA2_256 -> Constants.h256_l | SHA2_384 -> Constants.h384_l | SHA2_512 -> Constants.h512_l) in B.alloca_of_list l #set-options "--max_fuel 0" inline_for_extraction noextract let alloca_224: alloca_st SHA2_224 = alloca SHA2_224 inline_for_extraction noextract let alloca_256: alloca_st SHA2_256 = alloca SHA2_256 inline_for_extraction noextract let alloca_384: alloca_st SHA2_384 = alloca SHA2_384 inline_for_extraction noextract let alloca_512: alloca_st SHA2_512 = alloca SHA2_512 (** Init *) noextract inline_for_extraction val init: a:sha2_alg -> init_st a noextract inline_for_extraction let init a s = let h0 = ST.get () in let inv h1 (i: nat): Type0 = i <= 8 /\ M.(modifies (loc_buffer s) h0 h1) /\ S.equal (S.slice (B.as_seq h1 s) 0 i) (S.slice (h a) 0 i) in let f (i: U32.t { U32.(0 <= v i /\ v i < 8) }): ST.Stack unit (requires (fun h -> inv h (U32.v i))) (ensures (fun h0 _ h1 -> U32.(inv h0 (v i) /\ inv h1 (v i + 1)))) = s.(i) <- index_h a i; let h2 = ST.get () in assert (S.equal (S.slice (B.as_seq h2 s) 0 (U32.v i + 1)) (S.append (S.slice (B.as_seq h2 s) 0 (U32.v i)) (S.slice (B.as_seq h2 s) (U32.v i) (U32.v i + 1)))) in C.Loops.for 0ul 8ul inv f let init_224: init_st SHA2_224 = init SHA2_224 let init_256: init_st SHA2_256 = init SHA2_256 let init_384: init_st SHA2_384 = init SHA2_384 let init_512: init_st SHA2_512 = init SHA2_512 (** Update *) inline_for_extraction let block_w (a: sha2_alg) = b:B.buffer (word a) { B.length b = Helpers.block_word_length } let block_b (a: sha2_alg) = b:B.buffer uint8 { FStar.Mul.(B.length b = block_word_length * word_length a) } inline_for_extraction let ws_w (a: sha2_alg) = b:B.buffer (word a) { B.length b = Spec.size_k_w a } let block_words_be (a: sha2_alg) (h: HS.mem) (b: block_b a) = words_of_bytes a #block_word_length (B.as_seq h b) inline_for_extraction val ws (a: sha2_alg) (b: block_b a) (ws: ws_w a): ST.Stack unit (requires (fun h -> B.live h b /\ B.live h ws /\ B.disjoint b ws)) (ensures (fun h0 _ h1 -> let b = block_words_be a h0 b in M.(modifies (loc_buffer ws) h0 h1) /\ B.as_seq h1 ws == S.init (Spec.size_k_w a) (Spec.ws a b))) inline_for_extraction let index_be (a: sha2_alg) (b: block_b a) (i: U32.t): ST.Stack (word a) (requires (fun h -> B.live h b /\ U32.v i < block_word_length)) (ensures (fun h0 r h1 -> M.(modifies loc_none h0 h1) /\ r == S.index (words_of_bytes a #(B.length b / word_length a) (B.as_seq h0 b)) (U32.v i))) = match a with | SHA2_224 | SHA2_256 -> Lib.ByteBuffer.uint_at_index_be #U32 #SEC #(size block_word_length) b i | SHA2_384 | SHA2_512 -> Lib.ByteBuffer.uint_at_index_be #U64 #SEC #(size block_word_length) b i #set-options "--max_fuel 1 --z3rlimit 20" inline_for_extraction let ws a b ws = let h0 = ST.get () in let inv h1 (i: nat): Type0 = let b = block_words_be a h0 b in i <= Spec.size_k_w a /\ M.(modifies (loc_buffer ws) h0 h1) /\ S.equal (S.slice (B.as_seq h1 ws) 0 i) (S.init i (Spec.ws a b)) in reveal_opaque (`%Spec.ws) Spec.ws; let f (i: U32.t { U32.(0 <= v i /\ v i < Spec.size_k_w a) }): ST.Stack unit (requires (fun h -> inv h (U32.v i))) (ensures (fun h0 _ h1 -> U32.(inv h0 (v i) /\ inv h1 (v i + 1)))) = if U32.(i <^ 16ul) then begin (**) let h1 = ST.get () in ws.(i) <- index_be a b i; (**) let h2 = ST.get () in (**) init_next (B.as_seq h2 ws) (Spec.ws a (block_words_be a h0 b)) (U32.v i) end else let h1 = ST.get () in let t16 = ws.(U32.sub i 16ul) in let t15 = ws.(U32.sub i 15ul) in let t7 = ws.(U32.sub i 7ul) in let t2 = ws.(U32.sub i 2ul) in // JP: TODO, understand why this is not going through. (**) assert (S.index (B.as_seq h1 ws) (U32.v i - 16) == (**) S.index (S.init (U32.v i) (Spec.ws a (block_words_be a h0 b))) (U32.v i - 16)); (**) assert (t16 == Spec.ws a (block_words_be a h0 b) (U32.v i - 16)); (**) assert (S.index (B.as_seq h1 ws) (U32.v i - 15) == (**) S.index (S.init (U32.v i) (Spec.ws a (block_words_be a h0 b))) (U32.v i - 15)); (**) assert (t15 == Spec.ws a (block_words_be a h0 b) (U32.v i - 15)); (**) assert (S.index (B.as_seq h1 ws) (U32.v i - 7) == (**) S.index (S.init (U32.v i) (Spec.ws a (block_words_be a h0 b))) (U32.v i - 7)); (**) assert (t7 == Spec.ws a (block_words_be a h0 b) (U32.v i - 7)); (**) assert (S.index (B.as_seq h1 ws) (U32.v i - 2) == (**) S.index (S.init (U32.v i) (Spec.ws a (block_words_be a h0 b))) (U32.v i - 2)); (**) assert (t2 == Spec.ws a (block_words_be a h0 b) (U32.v i - 2)); let s1 = Spec._sigma1 a t2 in let s0 = Spec._sigma0 a t15 in let w = s1 +. t7 +. s0 +. t16 in ws.(i) <- w; (**) let h2 = ST.get () in (**) init_next (B.as_seq h2 ws) (Spec.ws a (block_words_be a h0 b)) (U32.v i) in C.Loops.for 0ul (U32.uint_to_t (Spec.size_k_w a)) inv f #set-options "--max_fuel 0" inline_for_extraction let words_state (a: sha2_alg) = b:B.buffer (word a) { B.length b = state_word_length a } inline_for_extraction val k0 (a: sha2_alg): ST.Stack (IB.ibuffer (word a)) (requires (fun _ -> True)) (ensures (fun h0 b h1 -> B.length b = Spec.size_k_w a /\ B.live h1 b /\ M.(modifies loc_none h0 h1) /\ B.as_seq h1 b == Spec.k0 a)) inline_for_extraction let k0 a = match a with | SHA2_224 | SHA2_256 -> IB.recall_contents k224_256 (S.seq_of_list Constants.k224_256_l); k224_256 | SHA2_384 | SHA2_512 -> IB.recall_contents k384_512 (S.seq_of_list Constants.k384_512_l); k384_512 inline_for_extraction val shuffle_core (a: sha2_alg) (block: G.erased (block_b a)) (hash: words_state a) (ws: ws_w a) (t: U32.t { U32.v t < Spec.size_k_w a }): ST.Stack unit (requires (fun h -> let block = G.reveal block in let b = block_words_be a h block in B.live h block /\ B.live h hash /\ B.live h ws /\ B.disjoint block hash /\ B.disjoint block ws /\ B.disjoint hash ws /\ B.as_seq h ws == S.init (Spec.size_k_w a) (Spec.ws a b))) (ensures (fun h0 _ h1 -> let block = G.reveal block in let b = block_words_be a h0 block in M.(modifies (loc_buffer hash) h0 h1) /\ B.as_seq h1 hash == Spec.shuffle_core a b (B.as_seq h0 hash) (U32.v t))) #set-options "--max_fuel 1 --z3rlimit 100" inline_for_extraction let shuffle_core a block hash ws t = let a0 = hash.(0ul) in let b0 = hash.(1ul) in let c0 = hash.(2ul) in let d0 = hash.(3ul) in let e0 = hash.(4ul) in let f0 = hash.(5ul) in let g0 = hash.(6ul) in let h0 = hash.(7ul) in let w = ws.(t) in let t1 = h0 +. (Spec._Sigma1 a e0) +. (Spec._Ch a e0 f0 g0) +. (k0 a).(t) +. w in let t2 = (Spec._Sigma0 a a0) +. (Spec._Maj a a0 b0 c0) in hash.(0ul) <- t1 +. t2; hash.(1ul) <- a0; hash.(2ul) <- b0; hash.(3ul) <- c0; hash.(4ul) <- d0 +. t1; hash.(5ul) <- e0; hash.(6ul) <- f0; hash.(7ul) <- g0; (**) reveal_opaque (`%Spec.shuffle_core) Spec.shuffle_core; (**) let h = ST.get () in (**) [@inline_let] (**) let l = [ t1 +. t2; a0; b0; c0; d0 +. t1; e0; f0; g0 ] in (**) assert_norm (List.Tot.length l = 8); (**) S.intro_of_list #(word a) (B.as_seq h hash) l #reset-options "--max_fuel 2 --z3rlimit 500" inline_for_extraction val shuffle: a:sha2_alg -> block:G.erased (block_b a) -> hash:words_state a -> ws:ws_w a -> ST.Stack unit (requires (fun h -> let block = G.reveal block in let b = block_words_be a h block in B.live h block /\ B.live h hash /\ B.live h ws /\ B.disjoint block hash /\ B.disjoint block ws /\ B.disjoint hash ws /\ B.as_seq h ws == S.init (Spec.size_k_w a) (Spec.ws a b))) (ensures (fun h0 _ h1 -> let block = G.reveal block in let b = block_words_be a h0 block in M.(modifies (loc_buffer hash) h0 h1 /\ B.as_seq h1 hash == Spec.shuffle a (B.as_seq h0 hash) b))) inline_for_extraction let size_k_w (a: sha2_alg) = U32.uint_to_t (Spec.size_k_w a) inline_for_extraction let shuffle a block hash ws = let h0 = ST.get () in let inv (h1: HS.mem) (i: nat) = let block = G.reveal block in let block = block_words_be a h0 block in M.(modifies (loc_buffer hash) h0 h1) /\ i <= Spec.size_k_w a /\ B.as_seq h1 hash == Spec.Loops.repeat_range 0 i (Spec.shuffle_core a block) (B.as_seq h0 hash) in let f (i: U32.t { U32.(0 <= v i /\ v i < Spec.size_k_w a)}): ST.Stack unit (requires (fun h -> inv h (U32.v i))) (ensures (fun h0 _ h1 -> U32.(inv h0 (v i) /\ inv h1 (v i + 1)))) = (**) let h1 = ST.get () in shuffle_core a block hash ws i; (**) let h2 = ST.get () in (**) let block = G.reveal block in (**) let block = block_words_be a h0 block in (**) let hash = B.as_seq h0 hash in (**) Spec.Loops.repeat_range_induction 0 (U32.v i + 1) (Spec.shuffle_core a block) hash in (**) Spec.Loops.repeat_range_base 0 (Spec.shuffle_core a (block_words_be a h0 (G.reveal block))) (B.as_seq h0 hash); C.Loops.for 0ul (size_k_w a) inv f; reveal_opaque (`%Spec.shuffle) Spec.shuffle inline_for_extraction let zero (a: sha2_alg): word a = match a with | SHA2_224 | SHA2_256 -> u32 0 | SHA2_384 | SHA2_512 -> u64 0 #set-options "--z3rlimit 200 --max_fuel 0 --max_ifuel 0" noextract inline_for_extraction val update: a:sha2_alg -> update_st a noextract inline_for_extraction let update a hash block = (**) ST.push_frame (); (**) let h0 = ST.get () in let hash1: words_state a = B.alloca (zero a) 8ul in let computed_ws: ws_w a = B.alloca (zero a) (U32.uint_to_t (Spec.size_k_w a)) in ws a block computed_ws; B.blit hash 0ul hash1 0ul 8ul; (**) let h1 = ST.get () in (**) assert (S.equal (B.as_seq h1 hash1) (B.as_seq h0 hash)); (**) assert (S.equal (B.as_seq h1 hash) (B.as_seq h0 hash)); shuffle a (G.hide block) hash1 computed_ws; (**) let h2 = ST.get () in (**) assert (let block_w = words_of_bytes a #block_word_length (B.as_seq h1 block) in S.equal (B.as_seq h2 hash1) (Spec.shuffle a (B.as_seq h1 hash1) block_w)); C.Loops.in_place_map2 hash hash1 8ul ( +. ); (**) let h3 = ST.get () in (**) reveal_opaque (`%Spec.shuffle) Spec.shuffle; (**) assert (S.equal (B.as_seq h3 hash) (Spec.update_aux a (B.as_seq h1 hash1) (B.as_seq h1 block))); ST.pop_frame(); (**) reveal_opaque (`%Spec.update) Spec.update let update_224: update_st SHA2_224 = update SHA2_224 let update_256: update_st SHA2_256 = update SHA2_256 let update_384: update_st SHA2_384 = update SHA2_384 let update_512: update_st SHA2_512 = update SHA2_512 let pad_224: pad_st SHA2_224 = Hacl.Hash.PadFinish.pad SHA2_224 let pad_256: pad_st SHA2_256 = Hacl.Hash.PadFinish.pad SHA2_256 let pad_384: pad_st SHA2_384 = Hacl.Hash.PadFinish.pad SHA2_384 let pad_512: pad_st SHA2_512 = Hacl.Hash.PadFinish.pad SHA2_512 let finish_224: finish_st SHA2_224 = Hacl.Hash.PadFinish.finish SHA2_224 let finish_256: finish_st SHA2_256 = Hacl.Hash.PadFinish.finish SHA2_256 let finish_384: finish_st SHA2_384 = Hacl.Hash.PadFinish.finish SHA2_384 let finish_512: finish_st SHA2_512 = Hacl.Hash.PadFinish.finish SHA2_512