module Crypto.Error.Types
( CryptoError(..)
, CryptoFailable(..)
, throwCryptoErrorIO
, throwCryptoError
, onCryptoFailure
, eitherCryptoError
, maybeCryptoError
) where
import qualified Control.Exception as E
import Data.Data
import Crypto.Internal.Imports
data CryptoError =
CryptoError_KeySizeInvalid
| CryptoError_IvSizeInvalid
| CryptoError_AEADModeNotSupported
| CryptoError_SecretKeySizeInvalid
| CryptoError_SecretKeyStructureInvalid
| CryptoError_PublicKeySizeInvalid
deriving (Show,Eq,Enum,Data,Typeable)
instance E.Exception CryptoError
data CryptoFailable a =
CryptoPassed a
| CryptoFailed CryptoError
instance Show a => Show (CryptoFailable a) where
show (CryptoPassed a) = "CryptoPassed " ++ show a
show (CryptoFailed err) = "CryptoFailed " ++ show err
instance Eq a => Eq (CryptoFailable a) where
(==) (CryptoPassed a) (CryptoPassed b) = a == b
(==) (CryptoFailed e1) (CryptoFailed e2) = e1 == e2
(==) _ _ = False
instance Functor CryptoFailable where
fmap f (CryptoPassed a) = CryptoPassed (f a)
fmap _ (CryptoFailed r) = CryptoFailed r
instance Applicative CryptoFailable where
pure a = CryptoPassed a
(<*>) fm m = fm >>= \p -> m >>= \r2 -> return (p r2)
instance Monad CryptoFailable where
return a = CryptoPassed a
(>>=) m1 m2 = do
case m1 of
CryptoPassed a -> m2 a
CryptoFailed e -> CryptoFailed e
throwCryptoErrorIO :: CryptoFailable a -> IO a
throwCryptoErrorIO (CryptoFailed e) = E.throwIO e
throwCryptoErrorIO (CryptoPassed r) = return r
throwCryptoError :: CryptoFailable a -> a
throwCryptoError (CryptoFailed e) = E.throw e
throwCryptoError (CryptoPassed r) = r
onCryptoFailure :: (CryptoError -> r) -> (a -> r) -> CryptoFailable a -> r
onCryptoFailure onError _ (CryptoFailed e) = onError e
onCryptoFailure _ onSuccess (CryptoPassed r) = onSuccess r
eitherCryptoError :: CryptoFailable a -> Either CryptoError a
eitherCryptoError (CryptoFailed e) = Left e
eitherCryptoError (CryptoPassed a) = Right a
maybeCryptoError :: CryptoFailable a -> Maybe a
maybeCryptoError (CryptoFailed _) = Nothing
maybeCryptoError (CryptoPassed r) = Just r