{-# OPTIONS_HADDOCK hide #-} -- | -- Module : Network.TLS.Core -- License : BSD-style -- Maintainer : Vincent Hanquez -- Stability : experimental -- Portability : unknown -- module Network.TLS.Core ( -- * Internal packet sending and receiving sendPacket , recvPacket -- * Creating a client or server context , client , clientWith , server , serverWith -- * Initialisation and Termination of context , bye , handshake -- * High level API , sendData , recvData ) where import Network.TLS.Context import Network.TLS.Struct import Network.TLS.Record import Network.TLS.Cipher import Network.TLS.Compression import Network.TLS.Packet import Network.TLS.State import Network.TLS.Sending import Network.TLS.Receiving import Network.TLS.Measurement import Network.TLS.Wire (encodeWord16) import Data.Maybe import Data.List (intersect, find) import qualified Data.ByteString as B import qualified Data.ByteString.Lazy as L import Crypto.Random import Control.Applicative ((<$>)) import Control.Monad.State import Control.Exception (throwIO, Exception(), fromException, catch) import System.IO (Handle) import System.IO.Error (mkIOError, eofErrorType) import Prelude hiding (catch) errorToAlert :: TLSError -> Packet errorToAlert (Error_Protocol (_, _, ad)) = Alert [(AlertLevel_Fatal, ad)] errorToAlert _ = Alert [(AlertLevel_Fatal, InternalError)] readExact :: MonadIO m => TLSCtx c -> Int -> m Bytes readExact ctx sz = do hdrbs <- liftIO $ connectionRecv ctx sz when (B.length hdrbs < sz) $ do setEOF ctx if B.null hdrbs then throwCore Error_EOF else throwCore (Error_Packet ("partial packet: expecting " ++ show sz ++ " bytes, got: " ++ (show $B.length hdrbs))) return hdrbs recvRecord :: MonadIO m => TLSCtx c -> m (Either TLSError (Record Plaintext)) recvRecord ctx = readExact ctx 5 >>= either (return . Left) recvLength . decodeHeader where recvLength header@(Header _ _ readlen) | readlen > 16384 + 2048 = return $ Left $ Error_Protocol ("record exceeding maximum size", True, RecordOverflow) | otherwise = do content <- readExact ctx (fromIntegral readlen) liftIO $ (loggingIORecv $ ctxLogging ctx) header content usingState ctx $ disengageRecord $ rawToRecord header (fragmentCiphertext content) -- | receive one packet from the context that contains 1 or -- many messages (many only in case of handshake). if will returns a -- TLSError if the packet is unexpected or malformed recvPacket :: MonadIO m => TLSCtx c -> m (Either TLSError Packet) recvPacket ctx = do erecord <- recvRecord ctx case erecord of Left err -> return $ Left err Right record -> do pkt <- usingState ctx $ processPacket record case pkt of Right p -> liftIO $ (loggingPacketRecv $ ctxLogging ctx) $ show p _ -> return () return pkt recvPacketHandshake :: MonadIO m => TLSCtx c -> m [Handshake] recvPacketHandshake ctx = do pkts <- recvPacket ctx case pkts of Right (Handshake l) -> return l Right x -> fail ("unexpected type received. expecting handshake and got: " ++ show x) Left err -> throwCore err data RecvState m = RecvStateNext (Packet -> m (RecvState m)) | RecvStateHandshake (Handshake -> m (RecvState m)) | RecvStateDone runRecvState :: MonadIO m => TLSCtx a -> RecvState m -> m () runRecvState _ (RecvStateDone) = return () runRecvState ctx (RecvStateNext f) = recvPacket ctx >>= either throwCore f >>= runRecvState ctx runRecvState ctx iniState = recvPacketHandshake ctx >>= loop iniState >>= runRecvState ctx where loop :: MonadIO m => RecvState m -> [Handshake] -> m (RecvState m) loop recvState [] = return recvState loop (RecvStateHandshake f) (x:xs) = do nstate <- f x usingState_ ctx $ processHandshake x loop nstate xs loop _ _ = unexpected "spurious handshake" Nothing sendChangeCipherAndFinish :: MonadIO m => TLSCtx c -> Bool -> m () sendChangeCipherAndFinish ctx isClient = do sendPacket ctx ChangeCipherSpec liftIO $ connectionFlush ctx cf <- usingState_ ctx $ getHandshakeDigest isClient sendPacket ctx (Handshake [Finished cf]) liftIO $ connectionFlush ctx unexpected :: MonadIO m => String -> Maybe [Char] -> m a unexpected msg expected = throwCore $ Error_Packet_unexpected msg (maybe "" (" expected: " ++) expected) -- | Send one packet to the context sendPacket :: MonadIO m => TLSCtx c -> Packet -> m () sendPacket ctx pkt = do liftIO $ (loggingPacketSent $ ctxLogging ctx) (show pkt) dataToSend <- usingState_ ctx $ writePacket pkt liftIO $ (loggingIOSent $ ctxLogging ctx) dataToSend liftIO $ connectionSend ctx dataToSend -- | Create a new Client context with a configuration, a RNG, a generic connection and the connection operation. clientWith :: (MonadIO m, CryptoRandomGen g) => TLSParams -> g -> c -> IO () -> (Bytes -> IO ()) -> (Int -> IO Bytes) -> m (TLSCtx c) clientWith params rng connection flushF sendF recvF = liftIO $ newCtxWith connection flushF sendF recvF params st where st = (newTLSState rng) { stClientContext = True } -- | Create a new Client context with a configuration, a RNG, and a Handle. -- It reconfigures the handle buffermode to noBuffering client :: (MonadIO m, CryptoRandomGen g) => TLSParams -> g -> Handle -> m (TLSCtx Handle) client params rng handle = liftIO $ newCtx handle params st where st = (newTLSState rng) { stClientContext = True } -- | Create a new Server context with a configuration, a RNG, a generic connection and the connection operation. serverWith :: (MonadIO m, CryptoRandomGen g) => TLSParams -> g -> c -> IO () -> (Bytes -> IO ()) -> (Int -> IO Bytes) -> m (TLSCtx c) serverWith params rng connection flushF sendF recvF = liftIO $ newCtxWith connection flushF sendF recvF params st where st = (newTLSState rng) { stClientContext = False } -- | Create a new Server context with a configuration, a RNG, and a Handle. -- It reconfigures the handle buffermode to noBuffering server :: (MonadIO m, CryptoRandomGen g) => TLSParams -> g -> Handle -> m (TLSCtx Handle) server params rng handle = liftIO $ newCtx handle params st where st = (newTLSState rng) { stClientContext = False } -- | notify the context that this side wants to close connection. -- this is important that it is called before closing the handle, otherwise -- the session might not be resumable (for version < TLS1.2). -- -- this doesn't actually close the handle bye :: MonadIO m => TLSCtx c -> m () bye ctx = sendPacket ctx $ Alert [(AlertLevel_Warning, CloseNotify)] -- client part of handshake. send a bunch of handshake of client -- values intertwined with response from the server. handshakeClient :: MonadIO m => TLSCtx c -> m () handshakeClient ctx = do updateMeasure ctx incrementNbHandshakes sendClientHello recvServerHello sendCertificate >> sendClientKeyXchg >> sendCertificateVerify sendChangeCipherAndFinish ctx True recvChangeCipherAndFinish updateMeasure ctx resetBytesCounters where params = ctxParams ctx ver = pConnectVersion params allowedvers = pAllowedVersions params ciphers = pCiphers params compressions = pCompressions params clientCerts = map fst $ pCertificates params getExtensions = if pUseSecureRenegotiation params then usingState_ ctx (getVerifiedData True) >>= \vd -> return [ (0xff01, encodeExtSecureRenegotiation vd Nothing) ] else return [] sendClientHello = do crand <- getStateRNG ctx 32 >>= return . ClientRandom extensions <- getExtensions usingState_ ctx (startHandshakeClient ver crand) sendPacket ctx $ Handshake [ ClientHello ver crand (Session Nothing) (map cipherID ciphers) (map compressionID compressions) extensions ] recvChangeCipherAndFinish = runRecvState ctx (RecvStateNext expectChangeCipher) where expectChangeCipher ChangeCipherSpec = return $ RecvStateHandshake expectFinish expectChangeCipher p = unexpected (show p) (Just "change cipher") expectFinish (Finished _) = return RecvStateDone expectFinish p = unexpected (show p) (Just "Handshake Finished") sendCertificate = do -- Send Certificate if requested. XXX disabled for now. certRequested <- return False when certRequested (sendPacket ctx $ Handshake [Certificates clientCerts]) sendCertificateVerify = {- maybe send certificateVerify -} {- FIXME not implemented yet -} return () recvServerHello = runRecvState ctx (RecvStateHandshake processServerHello) processServerHello :: MonadIO m => Handshake -> m (RecvState m) processServerHello (ServerHello rver _ _ cipher _ _) = do when (rver == SSL2) $ throwCore $ Error_Protocol ("ssl2 is not supported", True, ProtocolVersion) case find ((==) rver) allowedvers of Nothing -> throwCore $ Error_Protocol ("version " ++ show ver ++ "is not supported", True, ProtocolVersion) Just _ -> usingState_ ctx $ setVersion ver case find ((==) cipher . cipherID) ciphers of Nothing -> throwCore $ Error_Protocol ("no cipher in common with the server", True, HandshakeFailure) Just c -> usingState_ ctx $ setCipher c return $ RecvStateHandshake processCertificate processServerHello p = unexpected (show p) (Just "server hello") processCertificate :: MonadIO m => Handshake -> m (RecvState m) processCertificate (Certificates certs) = do let cb = onCertificatesRecv $ params usage <- liftIO $ cb certs case usage of CertificateUsageAccept -> return () CertificateUsageReject reason -> certificateRejected reason return $ RecvStateHandshake processServerKeyExchange processCertificate p = processServerKeyExchange p processServerKeyExchange :: MonadIO m => Handshake -> m (RecvState m) processServerKeyExchange (ServerKeyXchg _) = return $ RecvStateHandshake processCertificateRequest processServerKeyExchange p = processCertificateRequest p processCertificateRequest (CertRequest _ _ _) = do --modify (\sc -> sc { scCertRequested = True }) return $ RecvStateHandshake processServerHelloDone processCertificateRequest p = processServerHelloDone p processServerHelloDone ServerHelloDone = return RecvStateDone processServerHelloDone p = unexpected (show p) (Just "server hello data") sendClientKeyXchg = do encryptedPreMaster <- usingState_ ctx $ do xver <- stVersion <$> get prerand <- genTLSRandom 46 let premaster = encodePreMasterSecret xver prerand setMasterSecret premaster -- SSL3 implementation generally forget this length field since it's redundant, -- however TLS10 make it clear that the length field need to be present. e <- encryptRSA premaster let extra = if xver < TLS10 then B.empty else encodeWord16 $ fromIntegral $ B.length e return $ extra `B.append` e sendPacket ctx $ Handshake [ClientKeyXchg encryptedPreMaster] -- on certificate reject, throw an exception with the proper protocol alert error. certificateRejected CertificateRejectRevoked = throwCore $ Error_Protocol ("certificate is revoked", True, CertificateRevoked) certificateRejected CertificateRejectExpired = throwCore $ Error_Protocol ("certificate has expired", True, CertificateExpired) certificateRejected CertificateRejectUnknownCA = throwCore $ Error_Protocol ("certificate has unknown CA", True, UnknownCa) certificateRejected (CertificateRejectOther s) = throwCore $ Error_Protocol ("certificate rejected: " ++ s, True, CertificateUnknown) handshakeServerWith :: MonadIO m => TLSCtx c -> Handshake -> m () handshakeServerWith ctx clientHello@(ClientHello ver _ _ ciphers compressions _) = do -- check if policy allow this new handshake to happens handshakeAuthorized <- withMeasure ctx (onHandshake $ ctxParams ctx) unless handshakeAuthorized (throwCore $ Error_HandshakePolicy "server: handshake denied") updateMeasure ctx incrementNbHandshakes -- Handle Client hello usingState_ ctx $ processHandshake clientHello when (ver == SSL2) $ throwCore $ Error_Protocol ("ssl2 is not supported", True, ProtocolVersion) when (not $ elem ver (pAllowedVersions params)) $ throwCore $ Error_Protocol ("version " ++ show ver ++ "is not supported", True, ProtocolVersion) when (commonCiphers == []) $ throwCore $ Error_Protocol ("no cipher in common with the client", True, HandshakeFailure) when (null commonCompressions) $ throwCore $ Error_Protocol ("no compression in common with the client", True, HandshakeFailure) usingState_ ctx $ modify (\st -> st { stVersion = ver , stCipher = Just usedCipher , stCompression = usedCompression }) -- send Server Data until ServerHelloDone handshakeSendServerData liftIO $ connectionFlush ctx -- Receive client info until client Finished. recvClientData sendChangeCipherAndFinish ctx False updateMeasure ctx resetBytesCounters return () where params = ctxParams ctx commonCiphers = intersect ciphers (map cipherID $ pCiphers params) usedCipher = fromJust $ find (\c -> cipherID c == head commonCiphers) (pCiphers params) commonCompressions = compressionIntersectID (pCompressions params) compressions usedCompression = head commonCompressions srvCerts = map fst $ pCertificates params privKeys = map snd $ pCertificates params needKeyXchg = cipherExchangeNeedMoreData $ cipherKeyExchange usedCipher --- recvClientData = runRecvState ctx (RecvStateHandshake $ processClientCertificate) processClientCertificate (Certificates _) = return $ RecvStateHandshake processClientKeyExchange processClientCertificate p = processClientKeyExchange p processClientKeyExchange (ClientKeyXchg _) = return $ RecvStateNext processCertificateVerify processClientKeyExchange p = unexpected (show p) (Just "client key exchange") processCertificateVerify (Handshake [CertVerify _]) = return $ RecvStateNext expectChangeCipher processCertificateVerify p = expectChangeCipher p expectChangeCipher ChangeCipherSpec = return $ RecvStateHandshake expectFinish expectChangeCipher p = unexpected (show p) (Just "change cipher") expectFinish (Finished _) = return RecvStateDone expectFinish p = unexpected (show p) (Just "Handshake Finished") --- handshakeSendServerData = do srand <- getStateRNG ctx 32 >>= return . ServerRandom case privKeys of (Just privkey : _) -> usingState_ ctx $ setPrivateKey privkey _ -> return () -- return a sensible error -- in TLS12, we need to check as well the certificates we are sending if they have in the extension -- the necessary bits set. -- send ServerHello & Certificate & ServerKeyXchg & CertReq secReneg <- usingState_ ctx getSecureRenegotiation extensions <- if secReneg then do vf <- usingState_ ctx $ do cvf <- getVerifiedData True svf <- getVerifiedData False return $ encodeExtSecureRenegotiation cvf (Just svf) return [ (0xff01, vf) ] else return [] usingState_ ctx (setVersion ver >> setServerRandom srand) sendPacket ctx $ Handshake [ ServerHello ver srand (Session Nothing) (cipherID usedCipher) (compressionID usedCompression) extensions , Certificates srvCerts ] when needKeyXchg $ do let skg = SKX_RSA Nothing sendPacket ctx (Handshake [ServerKeyXchg skg]) -- FIXME we don't do this on a Anonymous server when (pWantClientCert params) $ do let certTypes = [ CertificateType_RSA_Sign ] let creq = CertRequest certTypes Nothing [0,0,0] sendPacket ctx (Handshake [creq]) -- Send HelloDone sendPacket ctx (Handshake [ServerHelloDone]) handshakeServerWith _ _ = fail "unexpected handshake type received. expecting client hello" -- after receiving a client hello, we need to redo a handshake handshakeServer :: MonadIO m => TLSCtx c -> m () handshakeServer ctx = do pkts <- recvPacket ctx case pkts of Right (Handshake [hs]) -> handshakeServerWith ctx hs x -> fail ("unexpected type received. expecting handshake ++ " ++ show x) -- | Handshake for a new TLS connection -- This is to be called at the beginning of a connection, and during renegociation handshake :: MonadIO m => TLSCtx c -> m Bool handshake ctx = do cc <- usingState_ ctx (stClientContext <$> get) liftIO $ handleException $ if cc then handshakeClient ctx else handshakeServer ctx where handleException f = catch (f >> return True) (\e -> handler e >> return False) handler e = case fromException e of Just err -> sendPacket ctx (errorToAlert err) Nothing -> sendPacket ctx (errorToAlert $ Error_Misc $ show e) -- | sendData sends a bunch of data. -- It will automatically chunk data to acceptable packet size sendData :: MonadIO m => TLSCtx c -> L.ByteString -> m () sendData ctx dataToSend = do eofed <- ctxEOF ctx when eofed $ liftIO $ throwIO $ mkIOError eofErrorType "sendData" Nothing Nothing mapM_ sendDataChunk (L.toChunks dataToSend) where sendDataChunk d = if B.length d > 16384 then do let (sending, remain) = B.splitAt 16384 d sendPacket ctx $ AppData sending sendDataChunk remain else sendPacket ctx $ AppData d -- | recvData get data out of Data packet, and automatically renegociate if -- a Handshake ClientHello is received recvData :: MonadIO m => TLSCtx c -> m L.ByteString recvData ctx = do eofed <- ctxEOF ctx when eofed $ liftIO $ throwIO $ mkIOError eofErrorType "recvData" Nothing Nothing pkt <- recvPacket ctx case pkt of -- on server context receiving a client hello == renegociation Right (Handshake [ch@(ClientHello _ _ _ _ _ _)]) -> handshakeServerWith ctx ch >> recvData ctx -- on client context, receiving a hello request == renegociation Right (Handshake [HelloRequest]) -> handshakeClient ctx >> recvData ctx Right (Alert [(AlertLevel_Fatal, _)]) -> do setEOF ctx return L.empty Right (Alert [(AlertLevel_Warning, CloseNotify)]) -> do setEOF ctx return L.empty Right (AppData x) -> return $ L.fromChunks [x] Right p -> error ("error unexpected packet: " ++ show p) Left err -> error ("error received: " ++ show err)