module OpenSSL.EVP.Internal (
Cipher(..),
EVP_CIPHER,
withCipherPtr,
cipherIvLength,
CipherCtx(..),
EVP_CIPHER_CTX,
newCipherCtx,
withCipherCtxPtr,
withNewCipherCtxPtr,
CryptoMode(..),
cipherSetPadding,
cipherInitBS,
cipherUpdateBS,
cipherFinalBS,
cipherStrictly,
cipherLazily,
Digest(..),
EVP_MD,
withMDPtr,
DigestCtx(..),
EVP_MD_CTX,
withDigestCtxPtr,
digestUpdateBS,
digestFinalBS,
digestFinal,
digestStrictly,
digestLazily,
VaguePKey(..),
EVP_PKEY,
PKey(..),
createPKey,
wrapPKeyPtr,
withPKeyPtr,
withPKeyPtr',
unsafePKeyToPtr,
touchPKey
) where
import qualified Data.ByteString.Internal as B8
import qualified Data.ByteString.Unsafe as B8
import qualified Data.ByteString.Char8 as B8
import qualified Data.ByteString.Lazy.Char8 as L8
import qualified Data.ByteString.Lazy.Internal as L8
import Control.Exception (mask, mask_, bracket_, onException)
import Foreign.C.Types (CChar)
import Foreign.C.Types (CInt(..), CUInt(..), CSize(..))
import Foreign.Ptr (Ptr, castPtr, FunPtr)
import Foreign.C.String (CString, peekCStringLen)
import Foreign.ForeignPtr
import Foreign.ForeignPtr.Unsafe as Unsafe
import Foreign.Storable (Storable(..))
import Foreign.Marshal.Alloc (alloca, allocaBytes)
import Foreign.Marshal.Array (allocaArray)
import System.IO.Unsafe (unsafeInterleaveIO)
import OpenSSL.Utils
newtype Cipher = Cipher (Ptr EVP_CIPHER)
data EVP_CIPHER
withCipherPtr :: Cipher -> (Ptr EVP_CIPHER -> IO a) -> IO a
withCipherPtr (Cipher cipherPtr) f = f cipherPtr
foreign import ccall unsafe "HsOpenSSL_EVP_CIPHER_iv_length"
_iv_length :: Ptr EVP_CIPHER -> CInt
cipherIvLength :: Cipher -> Int
cipherIvLength (Cipher cipherPtr) = fromIntegral $ _iv_length cipherPtr
newtype CipherCtx = CipherCtx (ForeignPtr EVP_CIPHER_CTX)
data EVP_CIPHER_CTX
foreign import ccall unsafe "EVP_CIPHER_CTX_init"
_cipher_ctx_init :: Ptr EVP_CIPHER_CTX -> IO ()
foreign import ccall unsafe "&EVP_CIPHER_CTX_cleanup"
_cipher_ctx_cleanup :: FunPtr (Ptr EVP_CIPHER_CTX -> IO ())
foreign import ccall unsafe "EVP_CIPHER_CTX_cleanup"
_cipher_ctx_cleanup' :: Ptr EVP_CIPHER_CTX -> IO ()
foreign import ccall unsafe "HsOpenSSL_EVP_CIPHER_CTX_block_size"
_cipher_ctx_block_size :: Ptr EVP_CIPHER_CTX -> CInt
newCipherCtx :: IO CipherCtx
newCipherCtx = do
ctx <- mallocForeignPtrBytes ((168))
mask_ $ do
withForeignPtr ctx _cipher_ctx_init
addForeignPtrFinalizer _cipher_ctx_cleanup ctx
return $ CipherCtx ctx
withCipherCtxPtr :: CipherCtx -> (Ptr EVP_CIPHER_CTX -> IO a) -> IO a
withCipherCtxPtr (CipherCtx ctx) = withForeignPtr ctx
withNewCipherCtxPtr :: (Ptr EVP_CIPHER_CTX -> IO a) -> IO a
withNewCipherCtxPtr f =
allocaBytes ((168)) $ \ptr ->
bracket_ (_cipher_ctx_init ptr) (_cipher_ctx_cleanup' ptr) (f ptr)
data CryptoMode = Encrypt | Decrypt
fromCryptoMode :: Num a => CryptoMode -> a
fromCryptoMode Encrypt = 1
fromCryptoMode Decrypt = 0
foreign import ccall unsafe "EVP_CIPHER_CTX_set_padding"
_SetPadding :: Ptr EVP_CIPHER_CTX -> CInt -> IO CInt
cipherSetPadding :: CipherCtx -> Int -> IO CipherCtx
cipherSetPadding ctx pad
= do withCipherCtxPtr ctx $ \ctxPtr ->
_SetPadding ctxPtr (fromIntegral pad)
>>= failIf_ (/= 1)
return ctx
foreign import ccall unsafe "EVP_CipherInit"
_CipherInit :: Ptr EVP_CIPHER_CTX
-> Ptr EVP_CIPHER
-> CString
-> CString
-> CInt
-> IO CInt
cipherInitBS :: Cipher
-> B8.ByteString
-> B8.ByteString
-> CryptoMode
-> IO CipherCtx
cipherInitBS (Cipher c) key iv mode
= do ctx <- newCipherCtx
withCipherCtxPtr ctx $ \ ctxPtr ->
B8.unsafeUseAsCString key $ \ keyPtr ->
B8.unsafeUseAsCString iv $ \ ivPtr ->
_CipherInit ctxPtr c keyPtr ivPtr (fromCryptoMode mode)
>>= failIf_ (/= 1)
return ctx
foreign import ccall unsafe "EVP_CipherUpdate"
_CipherUpdate :: Ptr EVP_CIPHER_CTX -> Ptr CChar -> Ptr CInt
-> Ptr CChar -> CInt -> IO CInt
cipherUpdateBS :: CipherCtx -> B8.ByteString -> IO B8.ByteString
cipherUpdateBS ctx inBS =
withCipherCtxPtr ctx $ \ctxPtr ->
B8.unsafeUseAsCStringLen inBS $ \(inBuf, inLen) ->
let len = inLen + fromIntegral (_cipher_ctx_block_size ctxPtr) 1 in
B8.createAndTrim len $ \outBuf ->
alloca $ \outLenPtr ->
_CipherUpdate ctxPtr (castPtr outBuf) outLenPtr inBuf
(fromIntegral inLen)
>>= failIf (/= 1)
>> fromIntegral <$> peek outLenPtr
foreign import ccall unsafe "EVP_CipherFinal"
_CipherFinal :: Ptr EVP_CIPHER_CTX -> Ptr CChar -> Ptr CInt -> IO CInt
cipherFinalBS :: CipherCtx -> IO B8.ByteString
cipherFinalBS ctx =
withCipherCtxPtr ctx $ \ctxPtr ->
let len = fromIntegral $ _cipher_ctx_block_size ctxPtr in
B8.createAndTrim len $ \outBuf ->
alloca $ \outLenPtr ->
_CipherFinal ctxPtr (castPtr outBuf) outLenPtr
>>= failIf (/= 1)
>> fromIntegral <$> peek outLenPtr
cipherStrictly :: CipherCtx -> B8.ByteString -> IO B8.ByteString
cipherStrictly ctx input = do
output' <- cipherUpdateBS ctx input
output'' <- cipherFinalBS ctx
return $ B8.append output' output''
cipherLazily :: CipherCtx -> L8.ByteString -> IO L8.ByteString
cipherLazily ctx (L8.Empty) =
cipherFinalBS ctx >>= return . L8.fromChunks . return
cipherLazily ctx (L8.Chunk x xs) = do
y <- cipherUpdateBS ctx x
ys <- unsafeInterleaveIO $ cipherLazily ctx xs
return $ L8.Chunk y ys
newtype Digest = Digest (Ptr EVP_MD)
data EVP_MD
withMDPtr :: Digest -> (Ptr EVP_MD -> IO a) -> IO a
withMDPtr (Digest mdPtr) f = f mdPtr
newtype DigestCtx = DigestCtx (ForeignPtr EVP_MD_CTX)
data EVP_MD_CTX
foreign import ccall unsafe "EVP_MD_CTX_init"
_md_ctx_init :: Ptr EVP_MD_CTX -> IO ()
foreign import ccall unsafe "&EVP_MD_CTX_cleanup"
_md_ctx_cleanup :: FunPtr (Ptr EVP_MD_CTX -> IO ())
newDigestCtx :: IO DigestCtx
newDigestCtx = do
ctx <- mallocForeignPtrBytes ((48))
mask_ $ do
withForeignPtr ctx _md_ctx_init
addForeignPtrFinalizer _md_ctx_cleanup ctx
return $ DigestCtx ctx
withDigestCtxPtr :: DigestCtx -> (Ptr EVP_MD_CTX -> IO a) -> IO a
withDigestCtxPtr (DigestCtx ctx) = withForeignPtr ctx
foreign import ccall unsafe "EVP_DigestInit"
_DigestInit :: Ptr EVP_MD_CTX -> Ptr EVP_MD -> IO CInt
digestInit :: Digest -> IO DigestCtx
digestInit (Digest md) = do
ctx <- newDigestCtx
withDigestCtxPtr ctx $ \ctxPtr ->
_DigestInit ctxPtr md
>>= failIf_ (/= 1)
>> return ctx
foreign import ccall unsafe "EVP_DigestUpdate"
_DigestUpdate :: Ptr EVP_MD_CTX -> Ptr CChar -> CSize -> IO CInt
digestUpdateBS :: DigestCtx -> B8.ByteString -> IO ()
digestUpdateBS ctx bs =
withDigestCtxPtr ctx $ \ctxPtr ->
B8.unsafeUseAsCStringLen bs $ \(buf, len) ->
_DigestUpdate ctxPtr buf (fromIntegral len)
>>= failIf (/= 1)
>> return ()
foreign import ccall unsafe "EVP_DigestFinal"
_DigestFinal :: Ptr EVP_MD_CTX -> Ptr CChar -> Ptr CUInt -> IO CInt
digestFinalBS :: DigestCtx -> IO B8.ByteString
digestFinalBS ctx =
withDigestCtxPtr ctx $ \ctxPtr ->
B8.createAndTrim (64) $ \bufPtr ->
alloca $ \bufLenPtr -> do
_DigestFinal ctxPtr (castPtr bufPtr) bufLenPtr >>= failIf_ (/= 1)
fromIntegral <$> peek bufLenPtr
digestFinal :: DigestCtx -> IO String
digestFinal ctx =
withDigestCtxPtr ctx $ \ctxPtr ->
allocaArray (64) $ \bufPtr ->
alloca $ \bufLenPtr -> do
_DigestFinal ctxPtr bufPtr bufLenPtr >>= failIf_ (/= 1)
bufLen <- fromIntegral <$> peek bufLenPtr
peekCStringLen (bufPtr, bufLen)
digestStrictly :: Digest -> B8.ByteString -> IO DigestCtx
digestStrictly md input = do
ctx <- digestInit md
digestUpdateBS ctx input
return ctx
digestLazily :: Digest -> L8.ByteString -> IO DigestCtx
digestLazily md lbs = do
ctx <- digestInit md
mapM_ (digestUpdateBS ctx) $ L8.toChunks lbs
return ctx
newtype VaguePKey = VaguePKey (ForeignPtr EVP_PKEY)
data EVP_PKEY
class PKey k where
toPKey :: k -> IO VaguePKey
fromPKey :: VaguePKey -> IO (Maybe k)
pkeySize :: k -> Int
pkeyDefaultMD :: k -> IO Digest
foreign import ccall unsafe "EVP_PKEY_new"
_pkey_new :: IO (Ptr EVP_PKEY)
foreign import ccall unsafe "&EVP_PKEY_free"
_pkey_free :: FunPtr (Ptr EVP_PKEY -> IO ())
foreign import ccall unsafe "EVP_PKEY_free"
_pkey_free' :: Ptr EVP_PKEY -> IO ()
wrapPKeyPtr :: Ptr EVP_PKEY -> IO VaguePKey
wrapPKeyPtr = fmap VaguePKey . newForeignPtr _pkey_free
createPKey :: (Ptr EVP_PKEY -> IO a) -> IO VaguePKey
createPKey f = mask $ \restore -> do
ptr <- _pkey_new >>= failIfNull
(restore $ f ptr >> return ()) `onException` _pkey_free' ptr
wrapPKeyPtr ptr
withPKeyPtr :: VaguePKey -> (Ptr EVP_PKEY -> IO a) -> IO a
withPKeyPtr (VaguePKey pkey) = withForeignPtr pkey
withPKeyPtr' :: PKey k => k -> (Ptr EVP_PKEY -> IO a) -> IO a
withPKeyPtr' k f = do
pk <- toPKey k
withPKeyPtr pk f
unsafePKeyToPtr :: VaguePKey -> Ptr EVP_PKEY
unsafePKeyToPtr (VaguePKey pkey) = Unsafe.unsafeForeignPtrToPtr pkey
touchPKey :: VaguePKey -> IO ()
touchPKey (VaguePKey pkey) = touchForeignPtr pkey