-- |Pure implementations of the SHA suite of hash functions. The implementation -- is basically an unoptimized translation of FIPS 180-2 into Haskell. If you're -- looking for performance, you probably won't find it here. module Data.Digest.Pure.SHA ( Digest , sha1 , sha224 , sha256 , sha384 , sha512 , showDigest , integerDigest , bytestringDigest #ifdef SHA_TEST , toBigEndianBS, fromBigEndianBS , find_k , padSHA1, padSHA512 #endif ) where import Data.Array.Unboxed import Data.Binary.Get import Data.Binary.Put import Data.Bits import Data.ByteString.Lazy(ByteString) import qualified Data.ByteString.Lazy as BS import Data.Char import Data.Int import Data.Word -- | An abstract datatype for digests. newtype Digest = Digest ByteString deriving (Eq,Ord) instance Show Digest where show = showDigest -- -------------------------------------------------------------------------- -- -- CONSTANT ARRAYS -- -- -------------------------------------------------------------------------- -- The following arrays represent K_i. sha256_k :: UArray Int Word32 sha256_k = listArray (0, 63) [ 0x428a2f98, 0x71374491, 0xb5c0fbcf, 0xe9b5dba5, 0x3956c25b , 0x59f111f1, 0x923f82a4, 0xab1c5ed5, 0xd807aa98, 0x12835b01 , 0x243185be, 0x550c7dc3, 0x72be5d74, 0x80deb1fe, 0x9bdc06a7 , 0xc19bf174, 0xe49b69c1, 0xefbe4786, 0x0fc19dc6, 0x240ca1cc , 0x2de92c6f, 0x4a7484aa, 0x5cb0a9dc, 0x76f988da, 0x983e5152 , 0xa831c66d, 0xb00327c8, 0xbf597fc7, 0xc6e00bf3, 0xd5a79147 , 0x06ca6351, 0x14292967, 0x27b70a85, 0x2e1b2138, 0x4d2c6dfc , 0x53380d13, 0x650a7354, 0x766a0abb, 0x81c2c92e, 0x92722c85 , 0xa2bfe8a1, 0xa81a664b, 0xc24b8b70, 0xc76c51a3, 0xd192e819 , 0xd6990624, 0xf40e3585, 0x106aa070, 0x19a4c116, 0x1e376c08 , 0x2748774c, 0x34b0bcb5, 0x391c0cb3, 0x4ed8aa4a, 0x5b9cca4f , 0x682e6ff3, 0x748f82ee, 0x78a5636f, 0x84c87814, 0x8cc70208 , 0x90befffa, 0xa4506ceb, 0xbef9a3f7, 0xc67178f2 ] sha512_k :: UArray Int Word64 sha512_k = listArray (0, 79) [ 0x428a2f98d728ae22, 0x7137449123ef65cd, 0xb5c0fbcfec4d3b2f , 0xe9b5dba58189dbbc, 0x3956c25bf348b538, 0x59f111f1b605d019 , 0x923f82a4af194f9b, 0xab1c5ed5da6d8118, 0xd807aa98a3030242 , 0x12835b0145706fbe, 0x243185be4ee4b28c, 0x550c7dc3d5ffb4e2 , 0x72be5d74f27b896f, 0x80deb1fe3b1696b1, 0x9bdc06a725c71235 , 0xc19bf174cf692694, 0xe49b69c19ef14ad2, 0xefbe4786384f25e3 , 0x0fc19dc68b8cd5b5, 0x240ca1cc77ac9c65, 0x2de92c6f592b0275 , 0x4a7484aa6ea6e483, 0x5cb0a9dcbd41fbd4, 0x76f988da831153b5 , 0x983e5152ee66dfab, 0xa831c66d2db43210, 0xb00327c898fb213f , 0xbf597fc7beef0ee4, 0xc6e00bf33da88fc2, 0xd5a79147930aa725 , 0x06ca6351e003826f, 0x142929670a0e6e70, 0x27b70a8546d22ffc , 0x2e1b21385c26c926, 0x4d2c6dfc5ac42aed, 0x53380d139d95b3df , 0x650a73548baf63de, 0x766a0abb3c77b2a8, 0x81c2c92e47edaee6 , 0x92722c851482353b, 0xa2bfe8a14cf10364, 0xa81a664bbc423001 , 0xc24b8b70d0f89791, 0xc76c51a30654be30, 0xd192e819d6ef5218 , 0xd69906245565a910, 0xf40e35855771202a, 0x106aa07032bbd1b8 , 0x19a4c116b8d2d0c8, 0x1e376c085141ab53, 0x2748774cdf8eeb99 , 0x34b0bcb5e19b48a8, 0x391c0cb3c5c95a63, 0x4ed8aa4ae3418acb , 0x5b9cca4f7763e373, 0x682e6ff3d6b2b8a3, 0x748f82ee5defb2fc , 0x78a5636f43172f60, 0x84c87814a1f0ab72, 0x8cc702081a6439ec , 0x90befffa23631e28, 0xa4506cebde82bde9, 0xbef9a3f7b2c67915 , 0xc67178f2e372532b, 0xca273eceea26619c, 0xd186b8c721c0c207 , 0xeada7dd6cde0eb1e, 0xf57d4f7fee6ed178, 0x06f067aa72176fba , 0x0a637dc5a2c898a6, 0x113f9804bef90dae, 0x1b710b35131c471b , 0x28db77f523047d84, 0x32caab7b40c72493, 0x3c9ebe0a15c9bebc , 0x431d67c49c100d4c, 0x4cc5d4becb3e42b6, 0x597f299cfc657e2a , 0x5fcb6fab3ad6faec, 0x6c44198c4a475817 ] -- -------------------------------------------------------------------------- -- -- State Definitions and Initial States -- -- -------------------------------------------------------------------------- data SHA1State = SHA1S !Word32 !Word32 !Word32 !Word32 !Word32 initialSHA1State :: SHA1State initialSHA1State = SHA1S 0x67452301 0xefcdab89 0x98badcfe 0x10325476 0xc3d2e1f0 data SHA256State = SHA256S !Word32 !Word32 !Word32 !Word32 !Word32 !Word32 !Word32 !Word32 initialSHA224State :: SHA256State initialSHA224State = SHA256S 0xc1059ed8 0x367cd507 0x3070dd17 0xf70e5939 0xffc00b31 0x68581511 0x64f98fa7 0xbefa4fa4 initialSHA256State :: SHA256State initialSHA256State = SHA256S 0x6a09e667 0xbb67ae85 0x3c6ef372 0xa54ff53a 0x510e527f 0x9b05688c 0x1f83d9ab 0x5be0cd19 data SHA512State = SHA512S !Word64 !Word64 !Word64 !Word64 !Word64 !Word64 !Word64 !Word64 initialSHA384State :: SHA512State initialSHA384State = SHA512S 0xcbbb9d5dc1059ed8 0x629a292a367cd507 0x9159015a3070dd17 0x152fecd8f70e5939 0x67332667ffc00b31 0x8eb44a8768581511 0xdb0c2e0d64f98fa7 0x47b5481dbefa4fa4 initialSHA512State :: SHA512State initialSHA512State = SHA512S 0x6a09e667f3bcc908 0xbb67ae8584caa73b 0x3c6ef372fe94f82b 0xa54ff53a5f1d36f1 0x510e527fade682d1 0x9b05688c2b3e6c1f 0x1f83d9abfb41bd6b 0x5be0cd19137e2179 -- -------------------------------------------------------------------------- -- -- Synthesize of states to ByteStrings -- -- -------------------------------------------------------------------------- synthesizeSHA1 :: SHA1State -> Put synthesizeSHA1 (SHA1S a b c d e) = do putWord32be a putWord32be b putWord32be c putWord32be d putWord32be e synthesizeSHA224 :: SHA256State -> Put synthesizeSHA224 (SHA256S a b c d e f g _) = do putWord32be a putWord32be b putWord32be c putWord32be d putWord32be e putWord32be f putWord32be g synthesizeSHA256 :: SHA256State -> Put synthesizeSHA256 (SHA256S a b c d e f g h) = do putWord32be a putWord32be b putWord32be c putWord32be d putWord32be e putWord32be f putWord32be g putWord32be h synthesizeSHA384 :: SHA512State -> Put synthesizeSHA384 (SHA512S a b c d e f _ _) = do putWord64be a putWord64be b putWord64be c putWord64be d putWord64be e putWord64be f synthesizeSHA512 :: SHA512State -> Put synthesizeSHA512 (SHA512S a b c d e f g h) = do putWord64be a putWord64be b putWord64be c putWord64be d putWord64be e putWord64be f putWord64be g putWord64be h -- -------------------------------------------------------------------------- -- -- Padding -- -- -------------------------------------------------------------------------- padSHA1 :: ByteString -> ByteString padSHA1 = generic_pad 448 512 64 padSHA512 :: ByteString -> ByteString padSHA512 = generic_pad 896 1024 128 generic_pad :: Word64 -> Word64 -> Int -> ByteString -> ByteString generic_pad a b lSize bs = BS.concat [bs, pad_bytes, pad_length] where l = fromIntegral $ BS.length bs * 8 k = find_k a b l -- INVARIANT: k is necessarily > 0, and (k + 1) is a multiple of 8. k_bytes = (k + 1) `div` 8 pad_bytes = BS.pack $ [0x80] ++ (take (fromIntegral $ k_bytes - 1) [0,0 ..]) pad_length = toBigEndianBS lSize l -- Given a, b, and l, find a k such that (l + 1 + k) mod b = a. This is an -- astoundingly brain-dead implementation. find_k :: Word64 -> Word64 -> Word64 -> Word64 find_k a b l = try_k 7 where try_k k | (l + 1 + k) `mod` b == a = k | otherwise = try_k (k + 8) toBigEndianBS :: (Integral a, Bits a) => Int -> a -> ByteString toBigEndianBS s val = BS.pack $ map getBits [s - 8, s - 16 .. 0] where getBits x = fromIntegral $ (val `shiftR` x) .&. 0xFF #ifdef SHA_TEST fromBigEndianBS :: (Integral a, Bits a) => ByteString -> a fromBigEndianBS bs = BS.foldl (\ acc x -> (acc `shiftL` 8) + (fromIntegral x)) 0 bs #endif -- -------------------------------------------------------------------------- -- -- SHA Functions -- -- -------------------------------------------------------------------------- {-# SPECIALIZE ch :: Word32 -> Word32 -> Word32 -> Word32 #-} {-# SPECIALIZE ch :: Word64 -> Word64 -> Word64 -> Word64 #-} ch :: Bits a => a -> a -> a -> a ch x y z = (x .&. y) `xor` ((complement x) .&. z) {-# SPECIALIZE parity :: Word32 -> Word32 -> Word32 -> Word32 #-} {-# SPECIALIZE parity :: Word64 -> Word64 -> Word64 -> Word64 #-} parity :: Bits a => a -> a -> a -> a parity x y z = x `xor` y `xor` z {-# SPECIALIZE maj :: Word32 -> Word32 -> Word32 -> Word32 #-} {-# SPECIALIZE maj :: Word64 -> Word64 -> Word64 -> Word64 #-} maj :: Bits a => a -> a -> a -> a maj x y z = (x .&. y) `xor` (x .&. z) `xor` (y .&. z) bsig256_0 :: Word32 -> Word32 bsig256_0 x = (rotate x (-2)) `xor` (rotate x (-13)) `xor` (rotate x (-22)) bsig256_1 :: Word32 -> Word32 bsig256_1 x = (rotate x (-6)) `xor` (rotate x (-11)) `xor` (rotate x (-25)) lsig256_0 :: Word32 -> Word32 lsig256_0 x = (rotate x (-7)) `xor` (rotate x (-18)) `xor` (shiftR x 3) lsig256_1 :: Word32 -> Word32 lsig256_1 x = (rotate x (-17)) `xor` (rotate x (-19)) `xor` (shiftR x 10) bsig512_0 :: Word64 -> Word64 bsig512_0 x = (rotate x (-28)) `xor` (rotate x (-34)) `xor` (rotate x (-39)) bsig512_1 :: Word64 -> Word64 bsig512_1 x = (rotate x (-14)) `xor` (rotate x (-18)) `xor` (rotate x (-41)) lsig512_0 :: Word64 -> Word64 lsig512_0 x = (rotate x (-1)) `xor` (rotate x (-8)) `xor` (shiftR x 7) lsig512_1 :: Word64 -> Word64 lsig512_1 x = (rotate x (-19)) `xor` (rotate x (-61)) `xor` (shiftR x 6) -- -------------------------------------------------------------------------- -- -- Message Schedules -- -- -------------------------------------------------------------------------- data SHA1Sched = SHA1Sched !Word32 !Word32 !Word32 !Word32 !Word32 -- 0 - 4 !Word32 !Word32 !Word32 !Word32 !Word32 -- 5 - 9 !Word32 !Word32 !Word32 !Word32 !Word32 -- 10 - 14 !Word32 !Word32 !Word32 !Word32 !Word32 -- 15 - 19 !Word32 !Word32 !Word32 !Word32 !Word32 -- 20 - 24 !Word32 !Word32 !Word32 !Word32 !Word32 -- 25 - 29 !Word32 !Word32 !Word32 !Word32 !Word32 -- 30 - 34 !Word32 !Word32 !Word32 !Word32 !Word32 -- 35 - 39 !Word32 !Word32 !Word32 !Word32 !Word32 -- 40 - 44 !Word32 !Word32 !Word32 !Word32 !Word32 -- 45 - 49 !Word32 !Word32 !Word32 !Word32 !Word32 -- 50 - 54 !Word32 !Word32 !Word32 !Word32 !Word32 -- 55 - 59 !Word32 !Word32 !Word32 !Word32 !Word32 -- 60 - 64 !Word32 !Word32 !Word32 !Word32 !Word32 -- 65 - 69 !Word32 !Word32 !Word32 !Word32 !Word32 -- 70 - 74 !Word32 !Word32 !Word32 !Word32 !Word32 -- 75 - 79 getSHA1Sched :: Get SHA1Sched getSHA1Sched = do w00 <- getWord32be w01 <- getWord32be w02 <- getWord32be w03 <- getWord32be w04 <- getWord32be w05 <- getWord32be w06 <- getWord32be w07 <- getWord32be w08 <- getWord32be w09 <- getWord32be w10 <- getWord32be w11 <- getWord32be w12 <- getWord32be w13 <- getWord32be w14 <- getWord32be w15 <- getWord32be let w16 = rotate (w13 `xor` w08 `xor` w02 `xor` w00) 1 w17 = rotate (w14 `xor` w09 `xor` w03 `xor` w01) 1 w18 = rotate (w15 `xor` w10 `xor` w04 `xor` w02) 1 w19 = rotate (w16 `xor` w11 `xor` w05 `xor` w03) 1 w20 = rotate (w17 `xor` w12 `xor` w06 `xor` w04) 1 w21 = rotate (w18 `xor` w13 `xor` w07 `xor` w05) 1 w22 = rotate (w19 `xor` w14 `xor` w08 `xor` w06) 1 w23 = rotate (w20 `xor` w15 `xor` w09 `xor` w07) 1 w24 = rotate (w21 `xor` w16 `xor` w10 `xor` w08) 1 w25 = rotate (w22 `xor` w17 `xor` w11 `xor` w09) 1 w26 = rotate (w23 `xor` w18 `xor` w12 `xor` w10) 1 w27 = rotate (w24 `xor` w19 `xor` w13 `xor` w11) 1 w28 = rotate (w25 `xor` w20 `xor` w14 `xor` w12) 1 w29 = rotate (w26 `xor` w21 `xor` w15 `xor` w13) 1 w30 = rotate (w27 `xor` w22 `xor` w16 `xor` w14) 1 w31 = rotate (w28 `xor` w23 `xor` w17 `xor` w15) 1 w32 = rotate (w29 `xor` w24 `xor` w18 `xor` w16) 1 w33 = rotate (w30 `xor` w25 `xor` w19 `xor` w17) 1 w34 = rotate (w31 `xor` w26 `xor` w20 `xor` w18) 1 w35 = rotate (w32 `xor` w27 `xor` w21 `xor` w19) 1 w36 = rotate (w33 `xor` w28 `xor` w22 `xor` w20) 1 w37 = rotate (w34 `xor` w29 `xor` w23 `xor` w21) 1 w38 = rotate (w35 `xor` w30 `xor` w24 `xor` w22) 1 w39 = rotate (w36 `xor` w31 `xor` w25 `xor` w23) 1 w40 = rotate (w37 `xor` w32 `xor` w26 `xor` w24) 1 w41 = rotate (w38 `xor` w33 `xor` w27 `xor` w25) 1 w42 = rotate (w39 `xor` w34 `xor` w28 `xor` w26) 1 w43 = rotate (w40 `xor` w35 `xor` w29 `xor` w27) 1 w44 = rotate (w41 `xor` w36 `xor` w30 `xor` w28) 1 w45 = rotate (w42 `xor` w37 `xor` w31 `xor` w29) 1 w46 = rotate (w43 `xor` w38 `xor` w32 `xor` w30) 1 w47 = rotate (w44 `xor` w39 `xor` w33 `xor` w31) 1 w48 = rotate (w45 `xor` w40 `xor` w34 `xor` w32) 1 w49 = rotate (w46 `xor` w41 `xor` w35 `xor` w33) 1 w50 = rotate (w47 `xor` w42 `xor` w36 `xor` w34) 1 w51 = rotate (w48 `xor` w43 `xor` w37 `xor` w35) 1 w52 = rotate (w49 `xor` w44 `xor` w38 `xor` w36) 1 w53 = rotate (w50 `xor` w45 `xor` w39 `xor` w37) 1 w54 = rotate (w51 `xor` w46 `xor` w40 `xor` w38) 1 w55 = rotate (w52 `xor` w47 `xor` w41 `xor` w39) 1 w56 = rotate (w53 `xor` w48 `xor` w42 `xor` w40) 1 w57 = rotate (w54 `xor` w49 `xor` w43 `xor` w41) 1 w58 = rotate (w55 `xor` w50 `xor` w44 `xor` w42) 1 w59 = rotate (w56 `xor` w51 `xor` w45 `xor` w43) 1 w60 = rotate (w57 `xor` w52 `xor` w46 `xor` w44) 1 w61 = rotate (w58 `xor` w53 `xor` w47 `xor` w45) 1 w62 = rotate (w59 `xor` w54 `xor` w48 `xor` w46) 1 w63 = rotate (w60 `xor` w55 `xor` w49 `xor` w47) 1 w64 = rotate (w61 `xor` w56 `xor` w50 `xor` w48) 1 w65 = rotate (w62 `xor` w57 `xor` w51 `xor` w49) 1 w66 = rotate (w63 `xor` w58 `xor` w52 `xor` w50) 1 w67 = rotate (w64 `xor` w59 `xor` w53 `xor` w51) 1 w68 = rotate (w65 `xor` w60 `xor` w54 `xor` w52) 1 w69 = rotate (w66 `xor` w61 `xor` w55 `xor` w53) 1 w70 = rotate (w67 `xor` w62 `xor` w56 `xor` w54) 1 w71 = rotate (w68 `xor` w63 `xor` w57 `xor` w55) 1 w72 = rotate (w69 `xor` w64 `xor` w58 `xor` w56) 1 w73 = rotate (w70 `xor` w65 `xor` w59 `xor` w57) 1 w74 = rotate (w71 `xor` w66 `xor` w60 `xor` w58) 1 w75 = rotate (w72 `xor` w67 `xor` w61 `xor` w59) 1 w76 = rotate (w73 `xor` w68 `xor` w62 `xor` w60) 1 w77 = rotate (w74 `xor` w69 `xor` w63 `xor` w61) 1 w78 = rotate (w75 `xor` w70 `xor` w64 `xor` w62) 1 w79 = rotate (w76 `xor` w71 `xor` w65 `xor` w63) 1 return $ SHA1Sched w00 w01 w02 w03 w04 w05 w06 w07 w08 w09 w10 w11 w12 w13 w14 w15 w16 w17 w18 w19 w20 w21 w22 w23 w24 w25 w26 w27 w28 w29 w30 w31 w32 w33 w34 w35 w36 w37 w38 w39 w40 w41 w42 w43 w44 w45 w46 w47 w48 w49 w50 w51 w52 w53 w54 w55 w56 w57 w58 w59 w60 w61 w62 w63 w64 w65 w66 w67 w68 w69 w70 w71 w72 w73 w74 w75 w76 w77 w78 w79 data SHA256Sched = SHA256Sched !Word32 !Word32 !Word32 !Word32 !Word32 -- 00-04 !Word32 !Word32 !Word32 !Word32 !Word32 -- 05-09 !Word32 !Word32 !Word32 !Word32 !Word32 -- 10-04 !Word32 !Word32 !Word32 !Word32 !Word32 -- 15-09 !Word32 !Word32 !Word32 !Word32 !Word32 -- 20-04 !Word32 !Word32 !Word32 !Word32 !Word32 -- 25-09 !Word32 !Word32 !Word32 !Word32 !Word32 -- 30-04 !Word32 !Word32 !Word32 !Word32 !Word32 -- 35-09 !Word32 !Word32 !Word32 !Word32 !Word32 -- 40-04 !Word32 !Word32 !Word32 !Word32 !Word32 -- 45-09 !Word32 !Word32 !Word32 !Word32 !Word32 -- 50-04 !Word32 !Word32 !Word32 !Word32 !Word32 -- 55-09 !Word32 !Word32 !Word32 !Word32 -- 60-63 getSHA256Sched :: Get SHA256Sched getSHA256Sched = do w00 <- getWord32be w01 <- getWord32be w02 <- getWord32be w03 <- getWord32be w04 <- getWord32be w05 <- getWord32be w06 <- getWord32be w07 <- getWord32be w08 <- getWord32be w09 <- getWord32be w10 <- getWord32be w11 <- getWord32be w12 <- getWord32be w13 <- getWord32be w14 <- getWord32be w15 <- getWord32be let w16 = (lsig256_1 w14) + w09 + (lsig256_0 w01) + w00 w17 = (lsig256_1 w15) + w10 + (lsig256_0 w02) + w01 w18 = (lsig256_1 w16) + w11 + (lsig256_0 w03) + w02 w19 = (lsig256_1 w17) + w12 + (lsig256_0 w04) + w03 w20 = (lsig256_1 w18) + w13 + (lsig256_0 w05) + w04 w21 = (lsig256_1 w19) + w14 + (lsig256_0 w06) + w05 w22 = (lsig256_1 w20) + w15 + (lsig256_0 w07) + w06 w23 = (lsig256_1 w21) + w16 + (lsig256_0 w08) + w07 w24 = (lsig256_1 w22) + w17 + (lsig256_0 w09) + w08 w25 = (lsig256_1 w23) + w18 + (lsig256_0 w10) + w09 w26 = (lsig256_1 w24) + w19 + (lsig256_0 w11) + w10 w27 = (lsig256_1 w25) + w20 + (lsig256_0 w12) + w11 w28 = (lsig256_1 w26) + w21 + (lsig256_0 w13) + w12 w29 = (lsig256_1 w27) + w22 + (lsig256_0 w14) + w13 w30 = (lsig256_1 w28) + w23 + (lsig256_0 w15) + w14 w31 = (lsig256_1 w29) + w24 + (lsig256_0 w16) + w15 w32 = (lsig256_1 w30) + w25 + (lsig256_0 w17) + w16 w33 = (lsig256_1 w31) + w26 + (lsig256_0 w18) + w17 w34 = (lsig256_1 w32) + w27 + (lsig256_0 w19) + w18 w35 = (lsig256_1 w33) + w28 + (lsig256_0 w20) + w19 w36 = (lsig256_1 w34) + w29 + (lsig256_0 w21) + w20 w37 = (lsig256_1 w35) + w30 + (lsig256_0 w22) + w21 w38 = (lsig256_1 w36) + w31 + (lsig256_0 w23) + w22 w39 = (lsig256_1 w37) + w32 + (lsig256_0 w24) + w23 w40 = (lsig256_1 w38) + w33 + (lsig256_0 w25) + w24 w41 = (lsig256_1 w39) + w34 + (lsig256_0 w26) + w25 w42 = (lsig256_1 w40) + w35 + (lsig256_0 w27) + w26 w43 = (lsig256_1 w41) + w36 + (lsig256_0 w28) + w27 w44 = (lsig256_1 w42) + w37 + (lsig256_0 w29) + w28 w45 = (lsig256_1 w43) + w38 + (lsig256_0 w30) + w29 w46 = (lsig256_1 w44) + w39 + (lsig256_0 w31) + w30 w47 = (lsig256_1 w45) + w40 + (lsig256_0 w32) + w31 w48 = (lsig256_1 w46) + w41 + (lsig256_0 w33) + w32 w49 = (lsig256_1 w47) + w42 + (lsig256_0 w34) + w33 w50 = (lsig256_1 w48) + w43 + (lsig256_0 w35) + w34 w51 = (lsig256_1 w49) + w44 + (lsig256_0 w36) + w35 w52 = (lsig256_1 w50) + w45 + (lsig256_0 w37) + w36 w53 = (lsig256_1 w51) + w46 + (lsig256_0 w38) + w37 w54 = (lsig256_1 w52) + w47 + (lsig256_0 w39) + w38 w55 = (lsig256_1 w53) + w48 + (lsig256_0 w40) + w39 w56 = (lsig256_1 w54) + w49 + (lsig256_0 w41) + w40 w57 = (lsig256_1 w55) + w50 + (lsig256_0 w42) + w41 w58 = (lsig256_1 w56) + w51 + (lsig256_0 w43) + w42 w59 = (lsig256_1 w57) + w52 + (lsig256_0 w44) + w43 w60 = (lsig256_1 w58) + w53 + (lsig256_0 w45) + w44 w61 = (lsig256_1 w59) + w54 + (lsig256_0 w46) + w45 w62 = (lsig256_1 w60) + w55 + (lsig256_0 w47) + w46 w63 = (lsig256_1 w61) + w56 + (lsig256_0 w48) + w47 return $ SHA256Sched w00 w01 w02 w03 w04 w05 w06 w07 w08 w09 w10 w11 w12 w13 w14 w15 w16 w17 w18 w19 w20 w21 w22 w23 w24 w25 w26 w27 w28 w29 w30 w31 w32 w33 w34 w35 w36 w37 w38 w39 w40 w41 w42 w43 w44 w45 w46 w47 w48 w49 w50 w51 w52 w53 w54 w55 w56 w57 w58 w59 w60 w61 w62 w63 data SHA512Sched = SHA512Sched !Word64 !Word64 !Word64 !Word64 !Word64 -- 0- 4 !Word64 !Word64 !Word64 !Word64 !Word64 -- 5- 9 !Word64 !Word64 !Word64 !Word64 !Word64 -- 10-14 !Word64 !Word64 !Word64 !Word64 !Word64 -- 15-19 !Word64 !Word64 !Word64 !Word64 !Word64 -- 20-24 !Word64 !Word64 !Word64 !Word64 !Word64 -- 25-29 !Word64 !Word64 !Word64 !Word64 !Word64 -- 30-34 !Word64 !Word64 !Word64 !Word64 !Word64 -- 35-39 !Word64 !Word64 !Word64 !Word64 !Word64 -- 40-44 !Word64 !Word64 !Word64 !Word64 !Word64 -- 45-49 !Word64 !Word64 !Word64 !Word64 !Word64 -- 50-54 !Word64 !Word64 !Word64 !Word64 !Word64 -- 55-59 !Word64 !Word64 !Word64 !Word64 !Word64 -- 60-64 !Word64 !Word64 !Word64 !Word64 !Word64 -- 65-69 !Word64 !Word64 !Word64 !Word64 !Word64 -- 70-74 !Word64 !Word64 !Word64 !Word64 !Word64 -- 75-79 getSHA512Sched :: Get SHA512Sched getSHA512Sched = do w00 <- getWord64be w01 <- getWord64be w02 <- getWord64be w03 <- getWord64be w04 <- getWord64be w05 <- getWord64be w06 <- getWord64be w07 <- getWord64be w08 <- getWord64be w09 <- getWord64be w10 <- getWord64be w11 <- getWord64be w12 <- getWord64be w13 <- getWord64be w14 <- getWord64be w15 <- getWord64be let w16 = (lsig512_1 w14) + w09 + (lsig512_0 w01) + w00 w17 = (lsig512_1 w15) + w10 + (lsig512_0 w02) + w01 w18 = (lsig512_1 w16) + w11 + (lsig512_0 w03) + w02 w19 = (lsig512_1 w17) + w12 + (lsig512_0 w04) + w03 w20 = (lsig512_1 w18) + w13 + (lsig512_0 w05) + w04 w21 = (lsig512_1 w19) + w14 + (lsig512_0 w06) + w05 w22 = (lsig512_1 w20) + w15 + (lsig512_0 w07) + w06 w23 = (lsig512_1 w21) + w16 + (lsig512_0 w08) + w07 w24 = (lsig512_1 w22) + w17 + (lsig512_0 w09) + w08 w25 = (lsig512_1 w23) + w18 + (lsig512_0 w10) + w09 w26 = (lsig512_1 w24) + w19 + (lsig512_0 w11) + w10 w27 = (lsig512_1 w25) + w20 + (lsig512_0 w12) + w11 w28 = (lsig512_1 w26) + w21 + (lsig512_0 w13) + w12 w29 = (lsig512_1 w27) + w22 + (lsig512_0 w14) + w13 w30 = (lsig512_1 w28) + w23 + (lsig512_0 w15) + w14 w31 = (lsig512_1 w29) + w24 + (lsig512_0 w16) + w15 w32 = (lsig512_1 w30) + w25 + (lsig512_0 w17) + w16 w33 = (lsig512_1 w31) + w26 + (lsig512_0 w18) + w17 w34 = (lsig512_1 w32) + w27 + (lsig512_0 w19) + w18 w35 = (lsig512_1 w33) + w28 + (lsig512_0 w20) + w19 w36 = (lsig512_1 w34) + w29 + (lsig512_0 w21) + w20 w37 = (lsig512_1 w35) + w30 + (lsig512_0 w22) + w21 w38 = (lsig512_1 w36) + w31 + (lsig512_0 w23) + w22 w39 = (lsig512_1 w37) + w32 + (lsig512_0 w24) + w23 w40 = (lsig512_1 w38) + w33 + (lsig512_0 w25) + w24 w41 = (lsig512_1 w39) + w34 + (lsig512_0 w26) + w25 w42 = (lsig512_1 w40) + w35 + (lsig512_0 w27) + w26 w43 = (lsig512_1 w41) + w36 + (lsig512_0 w28) + w27 w44 = (lsig512_1 w42) + w37 + (lsig512_0 w29) + w28 w45 = (lsig512_1 w43) + w38 + (lsig512_0 w30) + w29 w46 = (lsig512_1 w44) + w39 + (lsig512_0 w31) + w30 w47 = (lsig512_1 w45) + w40 + (lsig512_0 w32) + w31 w48 = (lsig512_1 w46) + w41 + (lsig512_0 w33) + w32 w49 = (lsig512_1 w47) + w42 + (lsig512_0 w34) + w33 w50 = (lsig512_1 w48) + w43 + (lsig512_0 w35) + w34 w51 = (lsig512_1 w49) + w44 + (lsig512_0 w36) + w35 w52 = (lsig512_1 w50) + w45 + (lsig512_0 w37) + w36 w53 = (lsig512_1 w51) + w46 + (lsig512_0 w38) + w37 w54 = (lsig512_1 w52) + w47 + (lsig512_0 w39) + w38 w55 = (lsig512_1 w53) + w48 + (lsig512_0 w40) + w39 w56 = (lsig512_1 w54) + w49 + (lsig512_0 w41) + w40 w57 = (lsig512_1 w55) + w50 + (lsig512_0 w42) + w41 w58 = (lsig512_1 w56) + w51 + (lsig512_0 w43) + w42 w59 = (lsig512_1 w57) + w52 + (lsig512_0 w44) + w43 w60 = (lsig512_1 w58) + w53 + (lsig512_0 w45) + w44 w61 = (lsig512_1 w59) + w54 + (lsig512_0 w46) + w45 w62 = (lsig512_1 w60) + w55 + (lsig512_0 w47) + w46 w63 = (lsig512_1 w61) + w56 + (lsig512_0 w48) + w47 w64 = (lsig512_1 w62) + w57 + (lsig512_0 w49) + w48 w65 = (lsig512_1 w63) + w58 + (lsig512_0 w50) + w49 w66 = (lsig512_1 w64) + w59 + (lsig512_0 w51) + w50 w67 = (lsig512_1 w65) + w60 + (lsig512_0 w52) + w51 w68 = (lsig512_1 w66) + w61 + (lsig512_0 w53) + w52 w69 = (lsig512_1 w67) + w62 + (lsig512_0 w54) + w53 w70 = (lsig512_1 w68) + w63 + (lsig512_0 w55) + w54 w71 = (lsig512_1 w69) + w64 + (lsig512_0 w56) + w55 w72 = (lsig512_1 w70) + w65 + (lsig512_0 w57) + w56 w73 = (lsig512_1 w71) + w66 + (lsig512_0 w58) + w57 w74 = (lsig512_1 w72) + w67 + (lsig512_0 w59) + w58 w75 = (lsig512_1 w73) + w68 + (lsig512_0 w60) + w59 w76 = (lsig512_1 w74) + w69 + (lsig512_0 w61) + w60 w77 = (lsig512_1 w75) + w70 + (lsig512_0 w62) + w61 w78 = (lsig512_1 w76) + w71 + (lsig512_0 w63) + w62 w79 = (lsig512_1 w77) + w72 + (lsig512_0 w64) + w63 return $ SHA512Sched w00 w01 w02 w03 w04 w05 w06 w07 w08 w09 w10 w11 w12 w13 w14 w15 w16 w17 w18 w19 w20 w21 w22 w23 w24 w25 w26 w27 w28 w29 w30 w31 w32 w33 w34 w35 w36 w37 w38 w39 w40 w41 w42 w43 w44 w45 w46 w47 w48 w49 w50 w51 w52 w53 w54 w55 w56 w57 w58 w59 w60 w61 w62 w63 w64 w65 w66 w67 w68 w69 w70 w71 w72 w73 w74 w75 w76 w77 w78 w79 -- -------------------------------------------------------------------------- -- -- SHA Block Processors -- -- -------------------------------------------------------------------------- processSHA1Block :: SHA1State -> Get SHA1State processSHA1Block s00@(SHA1S a00 b00 c00 d00 e00) = do (SHA1Sched w00 w01 w02 w03 w04 w05 w06 w07 w08 w09 w10 w11 w12 w13 w14 w15 w16 w17 w18 w19 w20 w21 w22 w23 w24 w25 w26 w27 w28 w29 w30 w31 w32 w33 w34 w35 w36 w37 w38 w39 w40 w41 w42 w43 w44 w45 w46 w47 w48 w49 w50 w51 w52 w53 w54 w55 w56 w57 w58 w59 w60 w61 w62 w63 w64 w65 w66 w67 w68 w69 w70 w71 w72 w73 w74 w75 w76 w77 w78 w79) <- getSHA1Sched let !s01 = step1 s00 0x5a827999 ch w00 !s02 = step1 s01 0x5a827999 ch w01 !s03 = step1 s02 0x5a827999 ch w02 !s04 = step1 s03 0x5a827999 ch w03 !s05 = step1 s04 0x5a827999 ch w04 !s06 = step1 s05 0x5a827999 ch w05 !s07 = step1 s06 0x5a827999 ch w06 !s08 = step1 s07 0x5a827999 ch w07 !s09 = step1 s08 0x5a827999 ch w08 !s10 = step1 s09 0x5a827999 ch w09 !s11 = step1 s10 0x5a827999 ch w10 !s12 = step1 s11 0x5a827999 ch w11 !s13 = step1 s12 0x5a827999 ch w12 !s14 = step1 s13 0x5a827999 ch w13 !s15 = step1 s14 0x5a827999 ch w14 !s16 = step1 s15 0x5a827999 ch w15 !s17 = step1 s16 0x5a827999 ch w16 !s18 = step1 s17 0x5a827999 ch w17 !s19 = step1 s18 0x5a827999 ch w18 !s20 = step1 s19 0x5a827999 ch w19 !s21 = step1 s20 0x6ed9eba1 parity w20 !s22 = step1 s21 0x6ed9eba1 parity w21 !s23 = step1 s22 0x6ed9eba1 parity w22 !s24 = step1 s23 0x6ed9eba1 parity w23 !s25 = step1 s24 0x6ed9eba1 parity w24 !s26 = step1 s25 0x6ed9eba1 parity w25 !s27 = step1 s26 0x6ed9eba1 parity w26 !s28 = step1 s27 0x6ed9eba1 parity w27 !s29 = step1 s28 0x6ed9eba1 parity w28 !s30 = step1 s29 0x6ed9eba1 parity w29 !s31 = step1 s30 0x6ed9eba1 parity w30 !s32 = step1 s31 0x6ed9eba1 parity w31 !s33 = step1 s32 0x6ed9eba1 parity w32 !s34 = step1 s33 0x6ed9eba1 parity w33 !s35 = step1 s34 0x6ed9eba1 parity w34 !s36 = step1 s35 0x6ed9eba1 parity w35 !s37 = step1 s36 0x6ed9eba1 parity w36 !s38 = step1 s37 0x6ed9eba1 parity w37 !s39 = step1 s38 0x6ed9eba1 parity w38 !s40 = step1 s39 0x6ed9eba1 parity w39 !s41 = step1 s40 0x8f1bbcdc maj w40 !s42 = step1 s41 0x8f1bbcdc maj w41 !s43 = step1 s42 0x8f1bbcdc maj w42 !s44 = step1 s43 0x8f1bbcdc maj w43 !s45 = step1 s44 0x8f1bbcdc maj w44 !s46 = step1 s45 0x8f1bbcdc maj w45 !s47 = step1 s46 0x8f1bbcdc maj w46 !s48 = step1 s47 0x8f1bbcdc maj w47 !s49 = step1 s48 0x8f1bbcdc maj w48 !s50 = step1 s49 0x8f1bbcdc maj w49 !s51 = step1 s50 0x8f1bbcdc maj w50 !s52 = step1 s51 0x8f1bbcdc maj w51 !s53 = step1 s52 0x8f1bbcdc maj w52 !s54 = step1 s53 0x8f1bbcdc maj w53 !s55 = step1 s54 0x8f1bbcdc maj w54 !s56 = step1 s55 0x8f1bbcdc maj w55 !s57 = step1 s56 0x8f1bbcdc maj w56 !s58 = step1 s57 0x8f1bbcdc maj w57 !s59 = step1 s58 0x8f1bbcdc maj w58 !s60 = step1 s59 0x8f1bbcdc maj w59 !s61 = step1 s60 0xca62c1d6 parity w60 !s62 = step1 s61 0xca62c1d6 parity w61 !s63 = step1 s62 0xca62c1d6 parity w62 !s64 = step1 s63 0xca62c1d6 parity w63 !s65 = step1 s64 0xca62c1d6 parity w64 !s66 = step1 s65 0xca62c1d6 parity w65 !s67 = step1 s66 0xca62c1d6 parity w66 !s68 = step1 s67 0xca62c1d6 parity w67 !s69 = step1 s68 0xca62c1d6 parity w68 !s70 = step1 s69 0xca62c1d6 parity w69 !s71 = step1 s70 0xca62c1d6 parity w70 !s72 = step1 s71 0xca62c1d6 parity w71 !s73 = step1 s72 0xca62c1d6 parity w72 !s74 = step1 s73 0xca62c1d6 parity w73 !s75 = step1 s74 0xca62c1d6 parity w74 !s76 = step1 s75 0xca62c1d6 parity w75 !s77 = step1 s76 0xca62c1d6 parity w76 !s78 = step1 s77 0xca62c1d6 parity w77 !s79 = step1 s78 0xca62c1d6 parity w78 !s80 = step1 s79 0xca62c1d6 parity w79 SHA1S a80 b80 c80 d80 e80 = s80 return $ SHA1S (a00 + a80) (b00 + b80) (c00 + c80) (d00 + d80) (e00 + e80) {-# INLINE step1 #-} step1 :: SHA1State -> Word32 -> (Word32 -> Word32 -> Word32 -> Word32) -> Word32 -> SHA1State step1 (SHA1S a b c d e) !k !f !w = SHA1S a' b' c' d' e' where a' = (rotate a 5) + (f b c d) + e + k + w b' = a c' = rotate b 30 d' = c e' = d processSHA256Block :: SHA256State -> Get SHA256State processSHA256Block !s00@(SHA256S a00 b00 c00 d00 e00 f00 g00 h00) = do (SHA256Sched w00 w01 w02 w03 w04 w05 w06 w07 w08 w09 w10 w11 w12 w13 w14 w15 w16 w17 w18 w19 w20 w21 w22 w23 w24 w25 w26 w27 w28 w29 w30 w31 w32 w33 w34 w35 w36 w37 w38 w39 w40 w41 w42 w43 w44 w45 w46 w47 w48 w49 w50 w51 w52 w53 w54 w55 w56 w57 w58 w59 w60 w61 w62 w63) <- getSHA256Sched let !s01 = step256 s00 (sha256_k ! 00) w00 !s02 = step256 s01 (sha256_k ! 01) w01 !s03 = step256 s02 (sha256_k ! 02) w02 !s04 = step256 s03 (sha256_k ! 03) w03 !s05 = step256 s04 (sha256_k ! 04) w04 !s06 = step256 s05 (sha256_k ! 05) w05 !s07 = step256 s06 (sha256_k ! 06) w06 !s08 = step256 s07 (sha256_k ! 07) w07 !s09 = step256 s08 (sha256_k ! 08) w08 !s10 = step256 s09 (sha256_k ! 09) w09 !s11 = step256 s10 (sha256_k ! 10) w10 !s12 = step256 s11 (sha256_k ! 11) w11 !s13 = step256 s12 (sha256_k ! 12) w12 !s14 = step256 s13 (sha256_k ! 13) w13 !s15 = step256 s14 (sha256_k ! 14) w14 !s16 = step256 s15 (sha256_k ! 15) w15 !s17 = step256 s16 (sha256_k ! 16) w16 !s18 = step256 s17 (sha256_k ! 17) w17 !s19 = step256 s18 (sha256_k ! 18) w18 !s20 = step256 s19 (sha256_k ! 19) w19 !s21 = step256 s20 (sha256_k ! 20) w20 !s22 = step256 s21 (sha256_k ! 21) w21 !s23 = step256 s22 (sha256_k ! 22) w22 !s24 = step256 s23 (sha256_k ! 23) w23 !s25 = step256 s24 (sha256_k ! 24) w24 !s26 = step256 s25 (sha256_k ! 25) w25 !s27 = step256 s26 (sha256_k ! 26) w26 !s28 = step256 s27 (sha256_k ! 27) w27 !s29 = step256 s28 (sha256_k ! 28) w28 !s30 = step256 s29 (sha256_k ! 29) w29 !s31 = step256 s30 (sha256_k ! 30) w30 !s32 = step256 s31 (sha256_k ! 31) w31 !s33 = step256 s32 (sha256_k ! 32) w32 !s34 = step256 s33 (sha256_k ! 33) w33 !s35 = step256 s34 (sha256_k ! 34) w34 !s36 = step256 s35 (sha256_k ! 35) w35 !s37 = step256 s36 (sha256_k ! 36) w36 !s38 = step256 s37 (sha256_k ! 37) w37 !s39 = step256 s38 (sha256_k ! 38) w38 !s40 = step256 s39 (sha256_k ! 39) w39 !s41 = step256 s40 (sha256_k ! 40) w40 !s42 = step256 s41 (sha256_k ! 41) w41 !s43 = step256 s42 (sha256_k ! 42) w42 !s44 = step256 s43 (sha256_k ! 43) w43 !s45 = step256 s44 (sha256_k ! 44) w44 !s46 = step256 s45 (sha256_k ! 45) w45 !s47 = step256 s46 (sha256_k ! 46) w46 !s48 = step256 s47 (sha256_k ! 47) w47 !s49 = step256 s48 (sha256_k ! 48) w48 !s50 = step256 s49 (sha256_k ! 49) w49 !s51 = step256 s50 (sha256_k ! 50) w50 !s52 = step256 s51 (sha256_k ! 51) w51 !s53 = step256 s52 (sha256_k ! 52) w52 !s54 = step256 s53 (sha256_k ! 53) w53 !s55 = step256 s54 (sha256_k ! 54) w54 !s56 = step256 s55 (sha256_k ! 55) w55 !s57 = step256 s56 (sha256_k ! 56) w56 !s58 = step256 s57 (sha256_k ! 57) w57 !s59 = step256 s58 (sha256_k ! 58) w58 !s60 = step256 s59 (sha256_k ! 59) w59 !s61 = step256 s60 (sha256_k ! 60) w60 !s62 = step256 s61 (sha256_k ! 61) w61 !s63 = step256 s62 (sha256_k ! 62) w62 !s64 = step256 s63 (sha256_k ! 63) w63 SHA256S a64 b64 c64 d64 e64 f64 g64 h64 = s64 return $ SHA256S (a00 + a64) (b00 + b64) (c00 + c64) (d00 + d64) (e00 + e64) (f00 + f64) (g00 + g64) (h00 + h64) {-# INLINE step256 #-} step256 :: SHA256State -> Word32 -> Word32 -> SHA256State step256 (SHA256S a b c d e f g h) k w = SHA256S a' b' c' d' e' f' g' h' where t1 = h + bsig256_1 e + ch e f g + k + w t2 = bsig256_0 a + maj a b c h' = g g' = f f' = e e' = d + t1 d' = c c' = b b' = a a' = t1 + t2 processSHA512Block :: SHA512State -> Get SHA512State processSHA512Block !s00@(SHA512S a00 b00 c00 d00 e00 f00 g00 h00) = do (SHA512Sched w00 w01 w02 w03 w04 w05 w06 w07 w08 w09 w10 w11 w12 w13 w14 w15 w16 w17 w18 w19 w20 w21 w22 w23 w24 w25 w26 w27 w28 w29 w30 w31 w32 w33 w34 w35 w36 w37 w38 w39 w40 w41 w42 w43 w44 w45 w46 w47 w48 w49 w50 w51 w52 w53 w54 w55 w56 w57 w58 w59 w60 w61 w62 w63 w64 w65 w66 w67 w68 w69 w70 w71 w72 w73 w74 w75 w76 w77 w78 w79) <- getSHA512Sched let !s01 = step512 s00 (sha512_k ! 00) w00 !s02 = step512 s01 (sha512_k ! 01) w01 !s03 = step512 s02 (sha512_k ! 02) w02 !s04 = step512 s03 (sha512_k ! 03) w03 !s05 = step512 s04 (sha512_k ! 04) w04 !s06 = step512 s05 (sha512_k ! 05) w05 !s07 = step512 s06 (sha512_k ! 06) w06 !s08 = step512 s07 (sha512_k ! 07) w07 !s09 = step512 s08 (sha512_k ! 08) w08 !s10 = step512 s09 (sha512_k ! 09) w09 !s11 = step512 s10 (sha512_k ! 10) w10 !s12 = step512 s11 (sha512_k ! 11) w11 !s13 = step512 s12 (sha512_k ! 12) w12 !s14 = step512 s13 (sha512_k ! 13) w13 !s15 = step512 s14 (sha512_k ! 14) w14 !s16 = step512 s15 (sha512_k ! 15) w15 !s17 = step512 s16 (sha512_k ! 16) w16 !s18 = step512 s17 (sha512_k ! 17) w17 !s19 = step512 s18 (sha512_k ! 18) w18 !s20 = step512 s19 (sha512_k ! 19) w19 !s21 = step512 s20 (sha512_k ! 20) w20 !s22 = step512 s21 (sha512_k ! 21) w21 !s23 = step512 s22 (sha512_k ! 22) w22 !s24 = step512 s23 (sha512_k ! 23) w23 !s25 = step512 s24 (sha512_k ! 24) w24 !s26 = step512 s25 (sha512_k ! 25) w25 !s27 = step512 s26 (sha512_k ! 26) w26 !s28 = step512 s27 (sha512_k ! 27) w27 !s29 = step512 s28 (sha512_k ! 28) w28 !s30 = step512 s29 (sha512_k ! 29) w29 !s31 = step512 s30 (sha512_k ! 30) w30 !s32 = step512 s31 (sha512_k ! 31) w31 !s33 = step512 s32 (sha512_k ! 32) w32 !s34 = step512 s33 (sha512_k ! 33) w33 !s35 = step512 s34 (sha512_k ! 34) w34 !s36 = step512 s35 (sha512_k ! 35) w35 !s37 = step512 s36 (sha512_k ! 36) w36 !s38 = step512 s37 (sha512_k ! 37) w37 !s39 = step512 s38 (sha512_k ! 38) w38 !s40 = step512 s39 (sha512_k ! 39) w39 !s41 = step512 s40 (sha512_k ! 40) w40 !s42 = step512 s41 (sha512_k ! 41) w41 !s43 = step512 s42 (sha512_k ! 42) w42 !s44 = step512 s43 (sha512_k ! 43) w43 !s45 = step512 s44 (sha512_k ! 44) w44 !s46 = step512 s45 (sha512_k ! 45) w45 !s47 = step512 s46 (sha512_k ! 46) w46 !s48 = step512 s47 (sha512_k ! 47) w47 !s49 = step512 s48 (sha512_k ! 48) w48 !s50 = step512 s49 (sha512_k ! 49) w49 !s51 = step512 s50 (sha512_k ! 50) w50 !s52 = step512 s51 (sha512_k ! 51) w51 !s53 = step512 s52 (sha512_k ! 52) w52 !s54 = step512 s53 (sha512_k ! 53) w53 !s55 = step512 s54 (sha512_k ! 54) w54 !s56 = step512 s55 (sha512_k ! 55) w55 !s57 = step512 s56 (sha512_k ! 56) w56 !s58 = step512 s57 (sha512_k ! 57) w57 !s59 = step512 s58 (sha512_k ! 58) w58 !s60 = step512 s59 (sha512_k ! 59) w59 !s61 = step512 s60 (sha512_k ! 60) w60 !s62 = step512 s61 (sha512_k ! 61) w61 !s63 = step512 s62 (sha512_k ! 62) w62 !s64 = step512 s63 (sha512_k ! 63) w63 !s65 = step512 s64 (sha512_k ! 64) w64 !s66 = step512 s65 (sha512_k ! 65) w65 !s67 = step512 s66 (sha512_k ! 66) w66 !s68 = step512 s67 (sha512_k ! 67) w67 !s69 = step512 s68 (sha512_k ! 68) w68 !s70 = step512 s69 (sha512_k ! 69) w69 !s71 = step512 s70 (sha512_k ! 70) w70 !s72 = step512 s71 (sha512_k ! 71) w71 !s73 = step512 s72 (sha512_k ! 72) w72 !s74 = step512 s73 (sha512_k ! 73) w73 !s75 = step512 s74 (sha512_k ! 74) w74 !s76 = step512 s75 (sha512_k ! 75) w75 !s77 = step512 s76 (sha512_k ! 76) w76 !s78 = step512 s77 (sha512_k ! 77) w77 !s79 = step512 s78 (sha512_k ! 78) w78 !s80 = step512 s79 (sha512_k ! 79) w79 SHA512S a80 b80 c80 d80 e80 f80 g80 h80 = s80 return $ SHA512S (a00 + a80) (b00 + b80) (c00 + c80) (d00 + d80) (e00 + e80) (f00 + f80) (g00 + g80) (h00 + h80) {-# INLINE step512 #-} step512 :: SHA512State -> Word64 -> Word64 -> SHA512State step512 (SHA512S a b c d e f g h) k w = SHA512S a' b' c' d' e' f' g' h' where t1 = h + bsig512_1 e + ch e f g + k + w t2 = bsig512_0 a + maj a b c h' = g g' = f f' = e e' = d + t1 d' = c c' = b b' = a a' = t1 + t2 -- -------------------------------------------------------------------------- -- -- Run the routines -- -- -------------------------------------------------------------------------- runSHA :: a -> (a -> Get a) -> ByteString -> a runSHA s nextChunk input = runGet (getAll s) input where getAll s_in = do done <- isEmpty if done then return s_in else do s_out <- nextChunk s_in getAll s_out -- |Compute the SHA-1 hash of the given ByteString. The output is guaranteed -- to be exactly 160 bits, or 20 bytes, long. This is a good default for -- programs that need a good, but not necessarily hyper-secure, hash function. sha1 :: ByteString -> Digest sha1 bs_in = Digest bs_out where bs_pad = padSHA1 bs_in fstate = runSHA initialSHA1State processSHA1Block bs_pad bs_out = runPut $ synthesizeSHA1 fstate -- |Compute the SHA-224 hash of the given ByteString. Note that SHA-224 and -- SHA-384 differ only slightly from SHA-256 and SHA-512, and use truncated -- versions of the resulting hashes. So using 224/384 may not, in fact, save -- you very much ... sha224 :: ByteString -> Digest sha224 bs_in = Digest bs_out where bs_pad = padSHA1 bs_in fstate = runSHA initialSHA224State processSHA256Block bs_pad bs_out = runPut $ synthesizeSHA224 fstate -- |Compute the SHA-256 hash of the given ByteString. The output is guaranteed -- to be exactly 256 bits, or 32 bytes, long. If your security requirements -- are pretty serious, this is a good choice. For truly significant security -- concerns, however, you might try one of the bigger options. sha256 :: ByteString -> Digest sha256 bs_in = Digest bs_out where bs_pad = padSHA1 bs_in fstate = runSHA initialSHA256State processSHA256Block bs_pad bs_out = runPut $ synthesizeSHA256 fstate -- |Compute the SHA-384 hash of the given ByteString. Yup, you guessed it, -- the output will be exactly 384 bits, or 48 bytes, long. sha384 :: ByteString -> Digest sha384 bs_in = Digest bs_out where bs_pad = padSHA512 bs_in fstate = runSHA initialSHA384State processSHA512Block bs_pad bs_out = runPut $ synthesizeSHA384 fstate -- |For those for whom only the biggest hashes will do, this computes the -- SHA-512 hash of the given ByteString. The output will be 64 bytes, or -- 512 bits, long. sha512 :: ByteString -> Digest sha512 bs_in = Digest bs_out where bs_pad = padSHA512 bs_in fstate = runSHA initialSHA512State processSHA512Block bs_pad bs_out = runPut $ synthesizeSHA512 fstate -- -------------------------------------------------------------------------- -- -- OTHER -- -- -------------------------------------------------------------------------- -- | Convert a digest to a string. -- The digest is rendered as fixed with hexadecimal number. showDigest :: Digest -> String showDigest (Digest bs) = showDigestBS bs -- |Prints out a bytestring in hexadecimal. Just for convenience. showDigestBS :: ByteString -> String showDigestBS bs = concatMap paddedShowHex $ BS.unpack bs where paddedShowHex x = toHex (x `shiftR` 4) ++ toHex (x .&. 0xf) toHex x = ["0","1","2","3","4","5","6","7","8","9","a","b","c","d","e","f"] !! (fromIntegral x) -- | Convert a digest to an Integer. integerDigest :: Digest -> Integer integerDigest (Digest bs) = BS.foldl' addShift 0 bs where addShift n y = (n `shiftL` 8) .|. fromIntegral y -- | Convert a digest to a ByteString. bytestringDigest :: Digest -> ByteString bytestringDigest (Digest bs) = bs