-- | -- Module : Crypto.Hash.MD5 -- License : BSD-style -- Maintainer : Herbert Valerio Riedel <hvr@gnu.org> -- Stability : stable -- Portability : unknown -- -- A module containing <https://en.wikipedia.org/wiki/MD5 MD5> bindings -- module Crypto.Hash.MD5 ( -- * Incremental API -- -- | This API is based on 4 different functions, similar to the -- lowlevel operations of a typical hash: -- -- - 'init': create a new hash context -- - 'update': update non-destructively a new hash context with a strict bytestring -- - 'updates': same as update, except that it takes a list of strict bytestrings -- - 'finalize': finalize the context and returns a digest bytestring. -- -- all those operations are completely pure, and instead of -- changing the context as usual in others language, it -- re-allocates a new context each time. -- -- Example: -- -- > import qualified Data.ByteString -- > import qualified Crypto.Hash.MD5 as MD5 -- > -- > main = print digest -- > where -- > digest = MD5.finalize ctx -- > ctx = foldl MD5.update ctx0 (map Data.ByteString.pack [ [1,2,3], [4,5,6] ]) -- > ctx0 = MD5.init Ctx(..) , init -- :: Ctx , update -- :: Ctx -> ByteString -> Ctx , updates -- :: Ctx -> [ByteString] -> Ctx , finalize -- :: Ctx -> ByteString -- * Single Pass API -- -- | This API use the incremental API under the hood to provide -- the common all-in-one operations to create digests out of a -- 'ByteString' and lazy 'L.ByteString'. -- -- - 'hash': create a digest ('init' + 'update' + 'finalize') from a strict 'ByteString' -- - 'hashlazy': create a digest ('init' + 'update' + 'finalize') from a lazy 'L.ByteString' -- -- Example: -- -- > import qualified Data.ByteString -- > import qualified Crypto.Hash.MD5 as MD5 -- > -- > main = print $ MD5.hash (Data.ByteString.pack [0..255]) -- -- __NOTE__: The returned digest is a binary 'ByteString'. For -- converting to a base16/hex encoded digest the -- <https://hackage.haskell.org/package/base16-bytestring base16-bytestring> -- package is recommended. , hash -- :: ByteString -> ByteString , hashlazy -- :: L.ByteString -> ByteString -- ** HMAC-MD5 -- -- | <https://tools.ietf.org/html/rfc2104 RFC2104>-compatible -- <https://en.wikipedia.org/wiki/HMAC HMAC>-MD5 digests , hmac -- :: ByteString -> ByteString -> ByteString , hmaclazy -- :: ByteString -> L.ByteString -> ByteString ) where import Prelude hiding (init) import Foreign.C.Types import Foreign.Ptr import Foreign.ForeignPtr (withForeignPtr) import Foreign.Marshal.Alloc import qualified Data.ByteString.Lazy as L import qualified Data.ByteString as B import Data.ByteString (ByteString) import Data.ByteString.Unsafe (unsafeUseAsCStringLen) import Data.ByteString.Internal (create, toForeignPtr, memcpy) import Data.Bits (xor) import Data.Word import System.IO.Unsafe (unsafeDupablePerformIO) -- | perform IO for hashes that do allocation and ffi. -- unsafeDupablePerformIO is used when possible as the -- computation is pure and the output is directly linked -- to the input. we also do not modify anything after it has -- been returned to the user. unsafeDoIO :: IO a -> a unsafeDoIO = unsafeDupablePerformIO -- | MD5 Context -- -- The context data is exactly 88 bytes long, however -- the data in the context is stored in host-endianness. -- -- The context data is made up of -- -- * a 'Word64' representing the number of bytes already feed to hash algorithm so far, -- -- * a 64-element 'Word8' buffer holding partial input-chunks, and finally -- -- * a 4-element 'Word32' array holding the current work-in-progress digest-value. -- -- Consequently, a MD5 digest as produced by 'hash', 'hashlazy', or 'finalize' is 16 bytes long. newtype Ctx = Ctx ByteString -- keep this synchronised with cbits/md5.h {-# INLINE digestSize #-} digestSize :: Int digestSize = 16 {-# INLINE sizeCtx #-} sizeCtx :: Int sizeCtx = 88 {-# RULES "digestSize" B.length (finalize init) = digestSize #-} {-# RULES "hash" forall b. finalize (update init b) = hash b #-} {-# RULES "hash.list1" forall b. finalize (updates init [b]) = hash b #-} {-# RULES "hashmany" forall b. finalize (foldl update init b) = hashlazy (L.fromChunks b) #-} {-# RULES "hashlazy" forall b. finalize (foldl update init $ L.toChunks b) = hashlazy b #-} {-# INLINE withByteStringPtr #-} withByteStringPtr :: ByteString -> (Ptr Word8 -> IO a) -> IO a withByteStringPtr b f = withForeignPtr fptr $ \ptr -> f (ptr `plusPtr` off) where (fptr, off, _) = toForeignPtr b copyCtx :: Ptr Ctx -> Ptr Ctx -> IO () copyCtx dst src = memcpy (castPtr dst) (castPtr src) (fromIntegral sizeCtx) withCtxCopy :: Ctx -> (Ptr Ctx -> IO ()) -> IO Ctx withCtxCopy (Ctx ctxB) f = Ctx `fmap` createCtx where createCtx = create sizeCtx $ \dstPtr -> withByteStringPtr ctxB $ \srcPtr -> do copyCtx (castPtr dstPtr) (castPtr srcPtr) f (castPtr dstPtr) withCtxThrow :: Ctx -> (Ptr Ctx -> IO a) -> IO a withCtxThrow (Ctx ctxB) f = allocaBytes sizeCtx $ \dstPtr -> withByteStringPtr ctxB $ \srcPtr -> do copyCtx (castPtr dstPtr) (castPtr srcPtr) f (castPtr dstPtr) withCtxNew :: (Ptr Ctx -> IO ()) -> IO Ctx withCtxNew f = Ctx `fmap` create sizeCtx (f . castPtr) withCtxNewThrow :: (Ptr Ctx -> IO a) -> IO a withCtxNewThrow f = allocaBytes sizeCtx (f . castPtr) foreign import ccall unsafe "md5.h hs_cryptohash_md5_init" c_md5_init :: Ptr Ctx -> IO () foreign import ccall unsafe "md5.h hs_cryptohash_md5_update" c_md5_update_unsafe :: Ptr Ctx -> Ptr Word8 -> CSize -> IO () foreign import ccall safe "md5.h hs_cryptohash_md5_update" c_md5_update_safe :: Ptr Ctx -> Ptr Word8 -> CSize -> IO () -- 'safe' call overhead neglible for 16KiB and more c_md5_update :: Ptr Ctx -> Ptr Word8 -> CSize -> IO () c_md5_update pctx pbuf sz | sz < 16384 = c_md5_update_unsafe pctx pbuf sz | otherwise = c_md5_update_safe pctx pbuf sz foreign import ccall unsafe "md5.h hs_cryptohash_md5_finalize" c_md5_finalize :: Ptr Ctx -> Ptr Word8 -> IO () updateInternalIO :: Ptr Ctx -> ByteString -> IO () updateInternalIO ptr d = unsafeUseAsCStringLen d (\(cs, len) -> c_md5_update ptr (castPtr cs) (fromIntegral len)) finalizeInternalIO :: Ptr Ctx -> IO ByteString finalizeInternalIO ptr = create digestSize (c_md5_finalize ptr) {-# NOINLINE init #-} -- | create a new hash context init :: Ctx init = unsafeDoIO $ withCtxNew $ c_md5_init validCtx :: Ctx -> Bool validCtx (Ctx b) = B.length b == sizeCtx {-# NOINLINE update #-} -- | update a context with a bytestring update :: Ctx -> ByteString -> Ctx update ctx d | validCtx ctx = unsafeDoIO $ withCtxCopy ctx $ \ptr -> updateInternalIO ptr d | otherwise = error "MD5.update: invalid Ctx" {-# NOINLINE updates #-} -- | updates a context with multiple bytestrings updates :: Ctx -> [ByteString] -> Ctx updates ctx d | validCtx ctx = unsafeDoIO $ withCtxCopy ctx $ \ptr -> mapM_ (updateInternalIO ptr) d | otherwise = error "MD5.updates: invalid Ctx" {-# NOINLINE finalize #-} -- | finalize the context into a digest bytestring (16 bytes) finalize :: Ctx -> ByteString finalize ctx | validCtx ctx = unsafeDoIO $ withCtxThrow ctx finalizeInternalIO | otherwise = error "MD5.finalize: invalid Ctx" {-# NOINLINE hash #-} -- | hash a strict bytestring into a digest bytestring (16 bytes) hash :: ByteString -> ByteString hash d = unsafeDoIO $ withCtxNewThrow $ \ptr -> do c_md5_init ptr >> updateInternalIO ptr d >> finalizeInternalIO ptr {-# NOINLINE hashlazy #-} -- | hash a lazy bytestring into a digest bytestring (16 bytes) hashlazy :: L.ByteString -> ByteString hashlazy l = unsafeDoIO $ withCtxNewThrow $ \ptr -> do c_md5_init ptr >> mapM_ (updateInternalIO ptr) (L.toChunks l) >> finalizeInternalIO ptr {-# NOINLINE hmac #-} -- | Compute 16-byte <https://tools.ietf.org/html/rfc2104 RFC2104>-compatible -- HMAC-Md5 digest for a strict bytestring message -- -- @since 0.11.100.0 hmac :: ByteString -- ^ secret -> ByteString -- ^ message -> ByteString hmac secret msg = hash $ B.append opad (hash $ B.append ipad msg) where opad = B.map (xor 0x5c) k' ipad = B.map (xor 0x36) k' k' = B.append kt pad kt = if B.length secret > 64 then hash secret else secret pad = B.replicate (64 - B.length kt) 0 {-# NOINLINE hmaclazy #-} -- | Compute 16-byte <https://tools.ietf.org/html/rfc2104 RFC2104>-compatible -- HMAC-MD5 digest for a lazy bytestring message -- -- @since 0.11.100.0 hmaclazy :: ByteString -- ^ secret -> L.ByteString -- ^ message -> ByteString hmaclazy secret msg = hash $ B.append opad (hashlazy $ L.append ipad msg) where opad = B.map (xor 0x5c) k' ipad = L.fromChunks [B.map (xor 0x36) k'] k' = B.append kt pad kt = if B.length secret > 64 then hash secret else secret pad = B.replicate (64 - B.length kt) 0