-- | -- Module : Network.TLS.Handshake.Key -- License : BSD-style -- Maintainer : Vincent Hanquez -- Stability : experimental -- Portability : unknown -- -- functions for RSA operations -- module Network.TLS.Handshake.Key ( encryptRSA , signRSA , decryptRSA , verifyRSA , generateDHE ) where import Data.ByteString (ByteString) import qualified Data.ByteString as B import Network.TLS.Handshake.State import Network.TLS.State (withRNG, getVersion) import Network.TLS.Crypto import Network.TLS.Types import Network.TLS.Context.Internal {- if the RSA encryption fails we just return an empty bytestring, and let the protocol - fail by itself; however it would be probably better to just report it since it's an internal problem. -} encryptRSA :: Context -> ByteString -> IO ByteString encryptRSA ctx content = do publicKey <- usingHState ctx getRemotePublicKey usingState_ ctx $ do v <- withRNG (\g -> kxEncrypt g publicKey content) case v of Left err -> fail ("rsa encrypt failed: " ++ show err) Right econtent -> return econtent signRSA :: Context -> Role -> HashDescr -> ByteString -> IO ByteString signRSA ctx _ hsh content = do privateKey <- usingHState ctx getLocalPrivateKey usingState_ ctx $ do r <- withRNG (\g -> kxSign g privateKey hsh content) case r of Left err -> fail ("rsa sign failed: " ++ show err) Right econtent -> return econtent decryptRSA :: Context -> ByteString -> IO (Either KxError ByteString) decryptRSA ctx econtent = do privateKey <- usingHState ctx getLocalPrivateKey usingState_ ctx $ do ver <- getVersion let cipher = if ver < TLS10 then econtent else B.drop 2 econtent withRNG (\g -> kxDecrypt g privateKey cipher) verifyRSA :: Context -> Role -> HashDescr -> ByteString -> ByteString -> IO Bool verifyRSA ctx _ hsh econtent sign = do publicKey <- usingHState ctx getRemotePublicKey return $ kxVerify publicKey hsh econtent sign generateDHE :: Context -> DHParams -> IO (DHPrivate, DHPublic) generateDHE ctx dhp = usingState_ ctx $ withRNG $ \rng -> dhGenerateKeyPair rng dhp