module Crypto.Hash.IO
( HashAlgorithm(..)
, MutableContext
, hashMutableInit
, hashMutableInitWith
, hashMutableUpdate
, hashMutableFinalize
, hashMutableReset
) where
import Crypto.Hash.Types
import qualified Crypto.Internal.ByteArray as B
import Foreign.Ptr
newtype MutableContext a = MutableContext B.Bytes
deriving (B.ByteArrayAccess)
hashMutableInit :: HashAlgorithm alg => IO (MutableContext alg)
hashMutableInit = doInit undefined B.alloc
where
doInit :: HashAlgorithm a => a -> (Int -> (Ptr (Context a) -> IO ()) -> IO B.Bytes) -> IO (MutableContext a)
doInit alg alloc = MutableContext `fmap` alloc (hashInternalContextSize alg) hashInternalInit
hashMutableInitWith :: HashAlgorithm alg => alg -> IO (MutableContext alg)
hashMutableInitWith _ = hashMutableInit
hashMutableUpdate :: (B.ByteArrayAccess ba, HashAlgorithm a) => MutableContext a -> ba -> IO ()
hashMutableUpdate mc dat = doUpdate mc (B.withByteArray mc)
where doUpdate :: HashAlgorithm a => MutableContext a -> ((Ptr (Context a) -> IO ()) -> IO ()) -> IO ()
doUpdate _ withCtx =
withCtx $ \ctx ->
B.withByteArray dat $ \d ->
hashInternalUpdate ctx d (fromIntegral $ B.length dat)
hashMutableFinalize :: forall a . HashAlgorithm a => MutableContext a -> IO (Digest a)
hashMutableFinalize mc = do
b <- B.alloc (hashDigestSize (undefined :: a)) $ \dig -> B.withByteArray mc $ \(ctx :: Ptr (Context a)) -> hashInternalFinalize ctx dig
return $ Digest b
hashMutableReset :: HashAlgorithm a => MutableContext a -> IO ()
hashMutableReset mc = doReset mc (B.withByteArray mc)
where
doReset :: HashAlgorithm a => MutableContext a -> ((Ptr (Context a) -> IO ()) -> IO ()) -> IO ()
doReset _ withCtx = withCtx hashInternalInit