{- P2P protocol - - Copyright 2016 Joey Hess - - Licensed under the GNU GPL version 3 or higher. -} {-# LANGUAGE DeriveFunctor, TemplateHaskell, FlexibleContexts, RankNTypes #-} module Remote.Helper.P2P where import qualified Utility.SimpleProtocol as Proto import Types.Key import Types.UUID import Utility.Applicative import Utility.PartialPrelude import Control.Monad import Control.Monad.Free import Control.Monad.Free.TH import Control.Monad.Catch import System.Exit (ExitCode(..)) import System.IO import qualified Data.ByteString.Lazy as L newtype AuthToken = AuthToken String deriving (Show) newtype Offset = Offset Integer deriving (Show) newtype Len = Len Integer deriving (Show) -- | Service as used by the connect message is gitremote-helpers(1) data Service = UploadPack | ReceivePack deriving (Show) -- | Messages in the protocol. The peer that makes the connection -- always initiates requests, and the other peer makes responses to them. data Message = AUTH UUID AuthToken -- uuid of the peer that is authenticating | AUTH_SUCCESS UUID -- uuid of the remote peer | AUTH_FAILURE | CONNECT Service | CONNECTDONE ExitCode | CHECKPRESENT Key | LOCKCONTENT Key | UNLOCKCONTENT | REMOVE Key | GET Offset Key | PUT Key | PUT_FROM Offset | ALREADY_HAVE | SUCCESS | FAILURE | DATA Len -- followed by bytes of data | ERROR String deriving (Show) instance Proto.Sendable Message where formatMessage (AUTH uuid authtoken) = ["AUTH", Proto.serialize uuid, Proto.serialize authtoken] formatMessage (AUTH_SUCCESS uuid) = ["AUTH-SUCCESS", Proto.serialize uuid] formatMessage AUTH_FAILURE = ["AUTH-FAILURE"] formatMessage (CONNECT service) = ["CONNECT", Proto.serialize service] formatMessage (CONNECTDONE exitcode) = ["CONNECTDONE", Proto.serialize exitcode] formatMessage (CHECKPRESENT key) = ["CHECKPRESENT", Proto.serialize key] formatMessage (LOCKCONTENT key) = ["LOCKCONTENT", Proto.serialize key] formatMessage UNLOCKCONTENT = ["UNLOCKCONTENT"] formatMessage (REMOVE key) = ["REMOVE", Proto.serialize key] formatMessage (GET offset key) = ["GET", Proto.serialize offset, Proto.serialize key] formatMessage (PUT key) = ["PUT", Proto.serialize key] formatMessage (PUT_FROM offset) = ["PUT-FROM", Proto.serialize offset] formatMessage ALREADY_HAVE = ["ALREADY-HAVE"] formatMessage SUCCESS = ["SUCCESS"] formatMessage FAILURE = ["FAILURE"] formatMessage (DATA len) = ["DATA", Proto.serialize len] formatMessage (ERROR err) = ["ERROR", Proto.serialize err] instance Proto.Receivable Message where parseCommand "AUTH" = Proto.parse2 AUTH parseCommand "AUTH-SUCCESS" = Proto.parse1 AUTH_SUCCESS parseCommand "AUTH-FAILURE" = Proto.parse0 AUTH_FAILURE parseCommand "CONNECT" = Proto.parse1 CONNECT parseCommand "CONNECTDONE" = Proto.parse1 CONNECT parseCommand "CHECKPRESENT" = Proto.parse1 CHECKPRESENT parseCommand "LOCKCONTENT" = Proto.parse1 LOCKCONTENT parseCommand "UNLOCKCONTENT" = Proto.parse0 UNLOCKCONTENT parseCommand "REMOVE" = Proto.parse1 REMOVE parseCommand "GET" = Proto.parse2 GET parseCommand "PUT" = Proto.parse1 PUT parseCommand "PUT-FROM" = Proto.parse1 PUT_FROM parseCommand "ALREADY-HAVE" = Proto.parse0 ALREADY_HAVE parseCommand "SUCCESS" = Proto.parse0 SUCCESS parseCommand "FAILURE" = Proto.parse0 FAILURE parseCommand "DATA" = Proto.parse1 DATA parseCommand "ERROR" = Proto.parse1 ERROR parseCommand _ = Proto.parseFail instance Proto.Serializable Offset where serialize (Offset n) = show n deserialize = Offset <$$> readish instance Proto.Serializable Len where serialize (Len n) = show n deserialize = Len <$$> readish instance Proto.Serializable AuthToken where serialize (AuthToken s) = s deserialize = Just . AuthToken instance Proto.Serializable Service where serialize UploadPack = "git-upload-pack" serialize ReceivePack = "git-receive-pack" deserialize "git-upload-pack" = Just UploadPack deserialize "git-receive-pack" = Just ReceivePack deserialize _ = Nothing -- | Free monad for the protocol, combining net communication, -- and local actions. data ProtoF c = Net (NetF c) | Local (LocalF c) deriving (Functor) type Proto = Free ProtoF net :: Net a -> Proto a net = hoistFree Net local :: Local a -> Proto a local = hoistFree Local data NetF c = SendMessage Message c | ReceiveMessage (Message -> c) | SendBytes Len L.ByteString c | ReceiveBytes Len (L.ByteString -> c) | CheckAuthToken UUID AuthToken (Bool -> c) | Relay RelayHandle (RelayData -> Net (Maybe ExitCode)) (ExitCode -> c) -- ^ Waits for data to be written to the RelayHandle, and for messages -- to be received from the peer, and passes the data to the -- callback, continuing until it returns an ExitCode. | RelayService Service (RelayHandle -> RelayData -> Net (Maybe ExitCode)) (ExitCode -> c) -- ^ Runs a service, and waits for it to output to stdout, -- and for messages to be received from the peer, and passes -- the data to the callback (which is also passed the service's -- stdin RelayHandle), continuing uniil the service exits. | WriteRelay RelayHandle L.ByteString c -- ^ Write data to a relay's handle, flushing it immediately. deriving (Functor) type Net = Free NetF data RelayData = RelayData L.ByteString | RelayMessage Message newtype RelayHandle = RelayHandle Handle data LocalF c -- ^ Lazily reads bytes from peer. Stops once Len are read, -- or if connection is lost, and in either case returns the bytes -- that were read. This allows resuming interrupted transfers. = KeyFileSize Key (Len -> c) -- ^ Checks size of key file (dne = 0) | ReadKeyFile Key Offset (L.ByteString -> c) | WriteKeyFile Key Offset Len L.ByteString (Bool -> c) -- ^ Writes to key file starting at an offset. Returns True -- once the whole content of the key is stored in the key file. -- -- Note: The ByteString may not contain the entire remaining content -- of the key. Only once the key file size == Len has the whole -- content been transferred. | SetPresent Key UUID c | CheckContentPresent Key (Bool -> c) -- ^ Checks if the whole content of the key is locally present. | RemoveKeyFile Key (Bool -> c) -- ^ If the key file is not present, still succeeds. -- May fail if not enough copies to safely drop, etc. | TryLockContent Key (Bool -> Proto ()) c -- ^ Try to lock the content of a key, preventing it -- from being deleted, and run the provided protocol action. deriving (Functor) type Local = Free LocalF -- Generate sendMessage etc functions for all free monad constructors. $(makeFree ''NetF) $(makeFree ''LocalF) -- | Running Proto actions purely, to see what they do. runPure :: Show r => Proto r -> [Message] -> [(String, Maybe Message)] runPure (Pure r) _ = [("result: " ++ show r, Nothing)] runPure (Free (Net n)) ms = runNet n ms runPure (Free (Local n)) ms = runLocal n ms runNet :: Show r => NetF (Proto r) -> [Message] -> [(String, Maybe Message)] runNet (SendMessage m next) ms = (">", Just m):runPure next ms runNet (ReceiveMessage _) [] = [("not enough Messages provided", Nothing)] runNet (ReceiveMessage next) (m:ms) = ("<", Just m):runPure (next m) ms runNet (SendBytes _ _ next) ms = ("> bytes", Nothing):runPure next ms runNet (ReceiveBytes _ next) ms = ("< bytes", Nothing):runPure (next L.empty) ms runNet (CheckAuthToken _ _ next) ms = runPure (next True) ms runNet (Relay _ _ next) ms = runPure (next ExitSuccess) ms runNet (RelayService _ _ next) ms = runPure (next ExitSuccess) ms runNet (WriteRelay _ _ next) ms = runPure next ms runLocal :: Show r => LocalF (Proto r) -> [Message] -> [(String, Maybe Message)] runLocal (KeyFileSize _ next) ms = runPure (next (Len 100)) ms runLocal (ReadKeyFile _ _ next) ms = runPure (next L.empty) ms runLocal (WriteKeyFile _ _ _ _ next) ms = runPure (next True) ms runLocal (SetPresent _ _ next) ms = runPure next ms runLocal (CheckContentPresent _ next) ms = runPure (next False) ms runLocal (RemoveKeyFile _ next) ms = runPure (next True) ms runLocal (TryLockContent _ p next) ms = runPure (p True >> next) ms protoDump :: [(String, Maybe Message)] -> String protoDump = unlines . map protoDump' protoDump' :: (String, Maybe Message) -> String protoDump' (s, Nothing) = s protoDump' (s, Just m) = s ++ " " ++ unwords (Proto.formatMessage m) auth :: UUID -> AuthToken -> Proto (Maybe UUID) auth myuuid t = do net $ sendMessage (AUTH myuuid t) r <- net receiveMessage case r of AUTH_SUCCESS theiruuid -> return $ Just theiruuid AUTH_FAILURE -> return Nothing _ -> do net $ sendMessage (ERROR "auth failed") return Nothing checkPresent :: Key -> Proto Bool checkPresent key = do net $ sendMessage (CHECKPRESENT key) checkSuccess {- Locks content to prevent it from being dropped, while running an action. - - Note that this only guarantees that the content is locked as long as the - connection to the peer remains up. If the connection is unexpectededly - dropped, the peer will then unlock the content. -} lockContentWhile :: MonadMask m => (forall r. Proto r -> m r) -> Key -> (Bool -> m ()) -> m () lockContentWhile runproto key a = bracket setup cleanup a where setup = runproto $ do net $ sendMessage (LOCKCONTENT key) checkSuccess cleanup True = runproto $ net $ sendMessage UNLOCKCONTENT cleanup False = return () remove :: Key -> Proto Bool remove key = do net $ sendMessage (REMOVE key) checkSuccess get :: Key -> Proto Bool get key = receiveContent key (`GET` key) put :: Key -> Proto Bool put key = do net $ sendMessage (PUT key) r <- net receiveMessage case r of PUT_FROM offset -> sendContent key offset ALREADY_HAVE -> return True _ -> do net $ sendMessage (ERROR "expected PUT_FROM") return False -- | Serve the protocol. -- -- Note that if the client sends an unexpected message, the server will -- respond with PTOTO_ERROR, and always continues processing messages. -- Since the protocol is not versioned, this is necessary to handle -- protocol changes robustly, since the client can detect when it's -- talking to a server that does not support some new feature, and fall -- back. -- -- When the client sends ERROR to the server, the server gives up, -- since it's not clear what state the client is is, and so not possible to -- recover. serve :: UUID -> Proto () serve myuuid = go Nothing where go autheduuid = do r <- net receiveMessage case r of AUTH theiruuid authtoken -> do ok <- net $ checkAuthToken theiruuid authtoken if ok then do net $ sendMessage (AUTH_SUCCESS myuuid) go (Just theiruuid) else do net $ sendMessage AUTH_FAILURE go autheduuid ERROR _ -> return () _ -> do case autheduuid of Just theiruuid -> authed theiruuid r Nothing -> net $ sendMessage (ERROR "must AUTH first") go autheduuid authed _theiruuid r = case r of LOCKCONTENT key -> local $ tryLockContent key $ \locked -> do sendSuccess locked when locked $ do r' <- net receiveMessage case r' of UNLOCKCONTENT -> return () _ -> net $ sendMessage (ERROR "expected UNLOCKCONTENT") CHECKPRESENT key -> sendSuccess =<< local (checkContentPresent key) REMOVE key -> sendSuccess =<< local (removeKeyFile key) PUT key -> do have <- local $ checkContentPresent key if have then net $ sendMessage ALREADY_HAVE else do ok <- receiveContent key PUT_FROM when ok $ local $ setPresent key myuuid -- setPresent not called because the peer may have -- requested the data but not permanatly stored it. GET offset key -> void $ sendContent key offset CONNECT service -> do exitcode <- net $ relayService service relayCallback net $ sendMessage (CONNECTDONE exitcode) _ -> net $ sendMessage (ERROR "unexpected command") sendContent :: Key -> Offset -> Proto Bool sendContent key offset = do (len, content) <- readKeyFileLen key offset net $ sendMessage (DATA len) net $ sendBytes len content checkSuccess receiveContent :: Key -> (Offset -> Message) -> Proto Bool receiveContent key mkmsg = do Len n <- local $ keyFileSize key let offset = Offset n net $ sendMessage (mkmsg offset) r <- net receiveMessage case r of DATA len -> do ok <- local . writeKeyFile key offset len =<< net (receiveBytes len) sendSuccess ok return ok _ -> do net $ sendMessage (ERROR "expected DATA") return False checkSuccess :: Proto Bool checkSuccess = do ack <- net receiveMessage case ack of SUCCESS -> return True FAILURE -> return False _ -> do net $ sendMessage (ERROR "expected SUCCESS or FAILURE") return False sendSuccess :: Bool -> Proto () sendSuccess True = net $ sendMessage SUCCESS sendSuccess False = net $ sendMessage FAILURE -- Reads key file from an offset. The Len should correspond to -- the length of the ByteString, but to avoid buffering the content -- in memory, is gotten using keyFileSize. readKeyFileLen :: Key -> Offset -> Proto (Len, L.ByteString) readKeyFileLen key (Offset offset) = do (Len totallen) <- local $ keyFileSize key let len = totallen - offset if len <= 0 then return (Len 0, L.empty) else do content <- local $ readKeyFile key (Offset offset) return (Len len, content) connect :: Service -> Handle -> Handle -> Proto ExitCode connect service hin hout = do net $ sendMessage (CONNECT service) net $ relay (RelayHandle hin) (relayCallback (RelayHandle hout)) relayCallback :: RelayHandle -> RelayData -> Net (Maybe ExitCode) relayCallback hout (RelayMessage (DATA len)) = do writeRelay hout =<< receiveBytes len return Nothing relayCallback _ (RelayMessage (CONNECTDONE exitcode)) = return (Just exitcode) relayCallback _ (RelayMessage _) = do sendMessage (ERROR "expected DATA or CONNECTDONE") return (Just (ExitFailure 1)) relayCallback _ (RelayData b) = do let len = Len $ fromIntegral $ L.length b sendMessage (DATA len) sendBytes len b return Nothing