{-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveAnyClass #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE DuplicateRecordFields #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE NumericUnderscores #-} {-# LANGUAGE OverloadedLists #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeApplications #-} -- | -- Module : Simplex.Messaging.Client -- Copyright : (c) simplex.chat -- License : AGPL-3 -- -- Maintainer : chat@simplex.chat -- Stability : experimental -- Portability : non-portable -- -- This module provides a functional client API for SMP protocol. -- -- See https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md module Simplex.Messaging.Client ( -- * Connect (disconnect) client to (from) SMP server TransportSession, ProtocolClient (thVersion, sessionId, sessionTs), SMPClient, getProtocolClient, closeProtocolClient, clientServer, transportHost', transportSession', -- * SMP protocol command functions createSMPQueue, subscribeSMPQueue, subscribeSMPQueues, getSMPMessage, subscribeSMPQueueNotifications, secureSMPQueue, enableSMPQueueNotifications, disableSMPQueueNotifications, enableSMPQueuesNtfs, disableSMPQueuesNtfs, sendSMPMessage, ackSMPMessage, suspendSMPQueue, deleteSMPQueue, deleteSMPQueues, sendProtocolCommand, -- * Supporting types and client configuration ProtocolClientError (..), SMPClientError, ProtocolClientConfig (..), NetworkConfig (..), TransportSessionMode (..), defaultClientConfig, defaultNetworkConfig, transportClientConfig, chooseTransportHost, proxyUsername, ServerTransmission, ClientCommand, ) where import Control.Concurrent (threadDelay) import Control.Concurrent.Async import Control.Concurrent.STM import Control.Exception import Control.Monad import Control.Monad.IO.Class (liftIO) import Control.Monad.Trans.Except import Data.Aeson (FromJSON (..), ToJSON (..)) import qualified Data.Aeson as J import Data.ByteString.Char8 (ByteString) import qualified Data.ByteString.Char8 as B import Data.Either (rights) import Data.Functor (($>)) import Data.Int (Int64) import Data.List (find) import Data.List.NonEmpty (NonEmpty) import qualified Data.List.NonEmpty as L import Data.Maybe (fromMaybe) import Data.Time.Clock (UTCTime, getCurrentTime) import GHC.Generics (Generic) import Network.Socket (ServiceName) import Numeric.Natural import qualified Simplex.Messaging.Crypto as C import Simplex.Messaging.Encoding.String import Simplex.Messaging.Parsers (dropPrefix, enumJSON) import Simplex.Messaging.Protocol as SMP import Simplex.Messaging.TMap (TMap) import qualified Simplex.Messaging.TMap as TM import Simplex.Messaging.Transport import Simplex.Messaging.Transport.Client (SocksProxy, TransportClientConfig (..), TransportHost (..), runTransportClient) import Simplex.Messaging.Transport.KeepAlive import Simplex.Messaging.Transport.WebSockets (WS) import Simplex.Messaging.Util (bshow, raceAny_) import Simplex.Messaging.Version import System.Timeout (timeout) -- | 'SMPClient' is a handle used to send commands to a specific SMP server. -- -- Use 'getSMPClient' to connect to an SMP server and create a client handle. data ProtocolClient err msg = ProtocolClient { action :: Maybe (Async ()), sessionId :: SessionId, sessionTs :: UTCTime, thVersion :: Version, client_ :: PClient err msg } data PClient err msg = PClient { connected :: TVar Bool, transportSession :: TransportSession msg, transportHost :: TransportHost, tcpTimeout :: Int, pingErrorCount :: TVar Int, clientCorrId :: TVar Natural, sentCommands :: TMap CorrId (Request err msg), sndQ :: TBQueue (NonEmpty SentRawTransmission), rcvQ :: TBQueue (NonEmpty (SignedTransmission err msg)), msgQ :: Maybe (TBQueue (ServerTransmission msg)) } type SMPClient = ProtocolClient ErrorType SMP.BrokerMsg -- | Type for client command data type ClientCommand msg = (Maybe C.APrivateSignKey, QueueId, ProtoCommand msg) -- | Type synonym for transmission from some SPM server queue. type ServerTransmission msg = (TransportSession msg, Version, SessionId, QueueId, msg) data HostMode = -- | prefer (or require) onion hosts when connecting via SOCKS proxy HMOnionViaSocks | -- | prefer (or require) onion hosts HMOnion | -- | prefer (or require) public hosts HMPublic deriving (Eq, Show, Generic) instance FromJSON HostMode where parseJSON = J.genericParseJSON . enumJSON $ dropPrefix "HM" instance ToJSON HostMode where toJSON = J.genericToJSON . enumJSON $ dropPrefix "HM" toEncoding = J.genericToEncoding . enumJSON $ dropPrefix "HM" -- | network configuration for the client data NetworkConfig = NetworkConfig { -- | use SOCKS5 proxy socksProxy :: Maybe SocksProxy, -- | determines critera which host is chosen from the list hostMode :: HostMode, -- | if above criteria is not met, if the below setting is True return error, otherwise use the first host requiredHostMode :: Bool, -- | transport sessions are created per user or per entity sessionMode :: TransportSessionMode, -- | timeout for the initial client TCP/TLS connection (microseconds) tcpConnectTimeout :: Int, -- | timeout of protocol commands (microseconds) tcpTimeout :: Int, -- | TCP keep-alive options, Nothing to skip enabling keep-alive tcpKeepAlive :: Maybe KeepAliveOpts, -- | period for SMP ping commands (microseconds, 0 to disable) smpPingInterval :: Int, -- | the count of PING errors after which SMP client terminates (and will be reconnected), 0 to disable smpPingCount :: Int, logTLSErrors :: Bool } deriving (Eq, Show, Generic, FromJSON) instance ToJSON NetworkConfig where toJSON = J.genericToJSON J.defaultOptions {J.omitNothingFields = True} toEncoding = J.genericToEncoding J.defaultOptions {J.omitNothingFields = True} data TransportSessionMode = TSMUser | TSMEntity deriving (Eq, Show, Generic) instance ToJSON TransportSessionMode where toJSON = J.genericToJSON . enumJSON $ dropPrefix "TSM" toEncoding = J.genericToEncoding . enumJSON $ dropPrefix "TSM" instance FromJSON TransportSessionMode where parseJSON = J.genericParseJSON . enumJSON $ dropPrefix "TSM" defaultNetworkConfig :: NetworkConfig defaultNetworkConfig = NetworkConfig { socksProxy = Nothing, hostMode = HMOnionViaSocks, requiredHostMode = False, sessionMode = TSMUser, tcpConnectTimeout = 7_500_000, tcpTimeout = 5_000_000, tcpKeepAlive = Just defaultKeepAliveOpts, smpPingInterval = 600_000_000, -- 10min smpPingCount = 3, logTLSErrors = False } transportClientConfig :: NetworkConfig -> TransportClientConfig transportClientConfig NetworkConfig {socksProxy, tcpKeepAlive, logTLSErrors} = TransportClientConfig {socksProxy, tcpKeepAlive, logTLSErrors} -- | protocol client configuration. data ProtocolClientConfig = ProtocolClientConfig { -- | size of TBQueue to use for server commands and responses qSize :: Natural, -- | default server port if port is not specified in ProtocolServer defaultTransport :: (ServiceName, ATransport), -- | network configuration networkConfig :: NetworkConfig, -- | SMP client-server protocol version range smpServerVRange :: VersionRange } -- | Default protocol client configuration. defaultClientConfig :: ProtocolClientConfig defaultClientConfig = ProtocolClientConfig { qSize = 64, defaultTransport = ("443", transport @TLS), networkConfig = defaultNetworkConfig, smpServerVRange = supportedSMPServerVRange } data Request err msg = Request { queueId :: QueueId, responseVar :: TMVar (Response err msg) } type Response err msg = Either (ProtocolClientError err) msg chooseTransportHost :: NetworkConfig -> NonEmpty TransportHost -> Either (ProtocolClientError err) TransportHost chooseTransportHost NetworkConfig {socksProxy, hostMode, requiredHostMode} hosts = firstOrError $ case hostMode of HMOnionViaSocks -> maybe publicHost (const onionHost) socksProxy HMOnion -> onionHost HMPublic -> publicHost where firstOrError | requiredHostMode = maybe (Left PCEIncompatibleHost) Right | otherwise = Right . fromMaybe (L.head hosts) isOnionHost = \case THOnionHost _ -> True; _ -> False onionHost = find isOnionHost hosts publicHost = find (not . isOnionHost) hosts clientServer :: ProtocolTypeI (ProtoType msg) => ProtocolClient err msg -> String clientServer = B.unpack . strEncode . snd3 . transportSession . client_ where snd3 (_, s, _) = s transportHost' :: ProtocolClient err msg -> TransportHost transportHost' = transportHost . client_ transportSession' :: ProtocolClient err msg -> TransportSession msg transportSession' = transportSession . client_ type UserId = Int64 -- | Transport session key - includes entity ID if `sessionMode = TSMEntity`. type TransportSession msg = (UserId, ProtoServer msg, Maybe EntityId) -- | Connects to 'ProtocolServer' using passed client configuration -- and queue for messages and notifications. -- -- A single queue can be used for multiple 'SMPClient' instances, -- as 'SMPServerTransmission' includes server information. getProtocolClient :: forall err msg. Protocol err msg => TransportSession msg -> ProtocolClientConfig -> Maybe (TBQueue (ServerTransmission msg)) -> (ProtocolClient err msg -> IO ()) -> IO (Either (ProtocolClientError err) (ProtocolClient err msg)) getProtocolClient transportSession@(_, srv, _) cfg@ProtocolClientConfig {qSize, networkConfig, smpServerVRange} msgQ disconnected = do case chooseTransportHost networkConfig (host srv) of Right useHost -> (atomically (mkProtocolClient useHost) >>= runClient useTransport useHost) `catch` \(e :: IOException) -> pure . Left $ PCEIOError e Left e -> pure $ Left e where NetworkConfig {tcpConnectTimeout, tcpTimeout, smpPingInterval} = networkConfig mkProtocolClient :: TransportHost -> STM (PClient err msg) mkProtocolClient transportHost = do connected <- newTVar False pingErrorCount <- newTVar 0 clientCorrId <- newTVar 0 sentCommands <- TM.empty sndQ <- newTBQueue qSize rcvQ <- newTBQueue qSize return PClient { connected, transportSession, transportHost, tcpTimeout, pingErrorCount, clientCorrId, sentCommands, sndQ, rcvQ, msgQ } runClient :: (ServiceName, ATransport) -> TransportHost -> PClient err msg -> IO (Either (ProtocolClientError err) (ProtocolClient err msg)) runClient (port', ATransport t) useHost c = do cVar <- newEmptyTMVarIO let tcConfig = transportClientConfig networkConfig username = proxyUsername transportSession action <- async $ runTransportClient tcConfig (Just username) useHost port' (Just $ keyHash srv) (client t c cVar) `finally` atomically (putTMVar cVar $ Left PCENetworkError) c_ <- tcpConnectTimeout `timeout` atomically (takeTMVar cVar) pure $ case c_ of Just (Right c') -> Right c' {action = Just action} Just (Left e) -> Left e Nothing -> Left PCENetworkError useTransport :: (ServiceName, ATransport) useTransport = case port srv of "" -> defaultTransport cfg "80" -> ("80", transport @WS) p -> (p, transport @TLS) client :: forall c. Transport c => TProxy c -> PClient err msg -> TMVar (Either (ProtocolClientError err) (ProtocolClient err msg)) -> c -> IO () client _ c cVar h = runExceptT (protocolClientHandshake @err @msg h (keyHash srv) smpServerVRange) >>= \case Left e -> atomically . putTMVar cVar . Left $ PCETransportError e Right th@THandle {sessionId, thVersion} -> do sessionTs <- getCurrentTime let c' = ProtocolClient {action = Nothing, client_ = c, sessionId, thVersion, sessionTs} atomically $ do writeTVar (connected c) True putTMVar cVar $ Right c' raceAny_ ([send c' th, process c', receive c' th] <> [ping c' | smpPingInterval > 0]) `finally` disconnected c' send :: Transport c => ProtocolClient err msg -> THandle c -> IO () send ProtocolClient {client_ = PClient {sndQ}} h = forever $ atomically (readTBQueue sndQ) >>= tPut h receive :: Transport c => ProtocolClient err msg -> THandle c -> IO () receive ProtocolClient {client_ = PClient {rcvQ}} h = forever $ tGet h >>= atomically . writeTBQueue rcvQ ping :: ProtocolClient err msg -> IO () ping c@ProtocolClient {client_ = PClient {pingErrorCount}} = do threadDelay smpPingInterval runExceptT (sendProtocolCommand c Nothing "" $ protocolPing @err @msg) >>= \case Left PCEResponseTimeout -> do cnt <- atomically $ stateTVar pingErrorCount $ \cnt -> (cnt + 1, cnt + 1) when (maxCnt == 0 || cnt < maxCnt) $ ping c _ -> ping c -- sendProtocolCommand resets pingErrorCount where maxCnt = smpPingCount networkConfig process :: ProtocolClient err msg -> IO () process c = forever $ atomically (readTBQueue $ rcvQ $ client_ c) >>= mapM_ (processMsg c) processMsg :: ProtocolClient err msg -> SignedTransmission err msg -> IO () processMsg c@ProtocolClient {client_ = PClient {sentCommands}} (_, _, (corrId, qId, respOrErr)) = if B.null $ bs corrId then sendMsg respOrErr else do atomically (TM.lookup corrId sentCommands) >>= \case Nothing -> sendMsg respOrErr Just Request {queueId, responseVar} -> atomically $ do TM.delete corrId sentCommands putTMVar responseVar $ if queueId == qId then case respOrErr of Left e -> Left $ PCEResponseError e Right r -> case protocolError r of Just e -> Left $ PCEProtocolError e _ -> Right r else Left . PCEUnexpectedResponse $ bshow respOrErr where sendMsg :: Either err msg -> IO () sendMsg = \case Right msg -> atomically $ mapM_ (`writeTBQueue` serverTransmission c qId msg) msgQ Left e -> putStrLn $ "SMP client error: " <> show e proxyUsername :: TransportSession msg -> ByteString proxyUsername (userId, _, entityId_) = C.sha256Hash $ bshow userId <> maybe "" (":" <>) entityId_ -- | Disconnects client from the server and terminates client threads. closeProtocolClient :: ProtocolClient err msg -> IO () closeProtocolClient = mapM_ uninterruptibleCancel . action -- | SMP client error type. data ProtocolClientError err = -- | Correctly parsed SMP server ERR response. -- This error is forwarded to the agent client as `ERR SMP err`. PCEProtocolError err | -- | Invalid server response that failed to parse. -- Forwarded to the agent client as `ERR BROKER RESPONSE`. PCEResponseError err | -- | Different response from what is expected to a certain SMP command, -- e.g. server should respond `IDS` or `ERR` to `NEW` command, -- other responses would result in this error. -- Forwarded to the agent client as `ERR BROKER UNEXPECTED`. PCEUnexpectedResponse ByteString | -- | Used for TCP connection and command response timeouts. -- Forwarded to the agent client as `ERR BROKER TIMEOUT`. PCEResponseTimeout | -- | Failure to establish TCP connection. -- Forwarded to the agent client as `ERR BROKER NETWORK`. PCENetworkError | -- | No host compatible with network configuration PCEIncompatibleHost | -- | TCP transport handshake or some other transport error. -- Forwarded to the agent client as `ERR BROKER TRANSPORT e`. PCETransportError TransportError | -- | Error when cryptographically "signing" the command. PCESignatureError C.CryptoError | -- | IO Error PCEIOError IOException deriving (Eq, Show, Exception) type SMPClientError = ProtocolClientError ErrorType -- | Create a new SMP queue. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#create-queue-command createSMPQueue :: SMPClient -> RcvPrivateSignKey -> RcvPublicVerifyKey -> RcvPublicDhKey -> Maybe BasicAuth -> ExceptT SMPClientError IO QueueIdsKeys createSMPQueue c rpKey rKey dhKey auth = sendSMPCommand c (Just rpKey) "" (NEW rKey dhKey auth) >>= \case IDS qik -> pure qik r -> throwE . PCEUnexpectedResponse $ bshow r -- | Subscribe to the SMP queue. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#subscribe-to-queue subscribeSMPQueue :: SMPClient -> RcvPrivateSignKey -> RecipientId -> ExceptT SMPClientError IO () subscribeSMPQueue c rpKey rId = sendSMPCommand c (Just rpKey) rId SUB >>= \case OK -> return () cmd@MSG {} -> liftIO $ writeSMPMessage c rId cmd r -> throwE . PCEUnexpectedResponse $ bshow r -- | Subscribe to multiple SMP queues batching commands if supported. subscribeSMPQueues :: SMPClient -> NonEmpty (RcvPrivateSignKey, RecipientId) -> IO (NonEmpty (Either SMPClientError ())) subscribeSMPQueues c qs = sendProtocolCommands c cs >>= mapM response . L.zip qs where cs = L.map (\(rpKey, rId) -> (Just rpKey, rId, Cmd SRecipient SUB)) qs response ((_, rId), r) = case r of Right OK -> pure $ Right () Right cmd@MSG {} -> writeSMPMessage c rId cmd $> Right () Right r' -> pure . Left . PCEUnexpectedResponse $ bshow r' Left e -> pure $ Left e writeSMPMessage :: SMPClient -> RecipientId -> BrokerMsg -> IO () writeSMPMessage c rId msg = atomically $ mapM_ (`writeTBQueue` serverTransmission c rId msg) (msgQ $ client_ c) serverTransmission :: ProtocolClient err msg -> RecipientId -> msg -> ServerTransmission msg serverTransmission ProtocolClient {thVersion, sessionId, client_ = PClient {transportSession}} entityId message = (transportSession, thVersion, sessionId, entityId, message) -- | Get message from SMP queue. The server returns ERR PROHIBITED if a client uses SUB and GET via the same transport connection for the same queue -- -- https://github.covm/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#receive-a-message-from-the-queue getSMPMessage :: SMPClient -> RcvPrivateSignKey -> RecipientId -> ExceptT SMPClientError IO (Maybe RcvMessage) getSMPMessage c rpKey rId = sendSMPCommand c (Just rpKey) rId GET >>= \case OK -> pure Nothing cmd@(MSG msg) -> liftIO (writeSMPMessage c rId cmd) $> Just msg r -> throwE . PCEUnexpectedResponse $ bshow r -- | Subscribe to the SMP queue notifications. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#subscribe-to-queue-notifications subscribeSMPQueueNotifications :: SMPClient -> NtfPrivateSignKey -> NotifierId -> ExceptT SMPClientError IO () subscribeSMPQueueNotifications = okSMPCommand NSUB -- | Secure the SMP queue by adding a sender public key. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#secure-queue-command secureSMPQueue :: SMPClient -> RcvPrivateSignKey -> RecipientId -> SndPublicVerifyKey -> ExceptT SMPClientError IO () secureSMPQueue c rpKey rId senderKey = okSMPCommand (KEY senderKey) c rpKey rId -- | Enable notifications for the queue for push notifications server. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#enable-notifications-command enableSMPQueueNotifications :: SMPClient -> RcvPrivateSignKey -> RecipientId -> NtfPublicVerifyKey -> RcvNtfPublicDhKey -> ExceptT SMPClientError IO (NotifierId, RcvNtfPublicDhKey) enableSMPQueueNotifications c rpKey rId notifierKey rcvNtfPublicDhKey = sendSMPCommand c (Just rpKey) rId (NKEY notifierKey rcvNtfPublicDhKey) >>= \case NID nId rcvNtfSrvPublicDhKey -> pure (nId, rcvNtfSrvPublicDhKey) r -> throwE . PCEUnexpectedResponse $ bshow r -- | Enable notifications for the multiple queues for push notifications server. enableSMPQueuesNtfs :: SMPClient -> NonEmpty (RcvPrivateSignKey, RecipientId, NtfPublicVerifyKey, RcvNtfPublicDhKey) -> IO (NonEmpty (Either SMPClientError (NotifierId, RcvNtfPublicDhKey))) enableSMPQueuesNtfs c qs = L.map response <$> sendProtocolCommands c cs where cs = L.map (\(rpKey, rId, notifierKey, rcvNtfPublicDhKey) -> (Just rpKey, rId, Cmd SRecipient $ NKEY notifierKey rcvNtfPublicDhKey)) qs response = \case Right (NID nId rcvNtfSrvPublicDhKey) -> Right (nId, rcvNtfSrvPublicDhKey) Right r -> Left . PCEUnexpectedResponse $ bshow r Left e -> Left e -- | Disable notifications for the queue for push notifications server. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#disable-notifications-command disableSMPQueueNotifications :: SMPClient -> RcvPrivateSignKey -> RecipientId -> ExceptT SMPClientError IO () disableSMPQueueNotifications = okSMPCommand NDEL -- | Disable notifications for multiple queues for push notifications server. disableSMPQueuesNtfs :: SMPClient -> NonEmpty (RcvPrivateSignKey, RecipientId) -> IO (NonEmpty (Either SMPClientError ())) disableSMPQueuesNtfs = okSMPCommands NDEL -- | Send SMP message. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#send-message sendSMPMessage :: SMPClient -> Maybe SndPrivateSignKey -> SenderId -> MsgFlags -> MsgBody -> ExceptT SMPClientError IO () sendSMPMessage c spKey sId flags msg = sendSMPCommand c spKey sId (SEND flags msg) >>= \case OK -> pure () r -> throwE . PCEUnexpectedResponse $ bshow r -- | Acknowledge message delivery (server deletes the message). -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#acknowledge-message-delivery ackSMPMessage :: SMPClient -> RcvPrivateSignKey -> QueueId -> MsgId -> ExceptT SMPClientError IO () ackSMPMessage c rpKey rId msgId = sendSMPCommand c (Just rpKey) rId (ACK msgId) >>= \case OK -> return () cmd@MSG {} -> liftIO $ writeSMPMessage c rId cmd r -> throwE . PCEUnexpectedResponse $ bshow r -- | Irreversibly suspend SMP queue. -- The existing messages from the queue will still be delivered. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#suspend-queue suspendSMPQueue :: SMPClient -> RcvPrivateSignKey -> QueueId -> ExceptT SMPClientError IO () suspendSMPQueue = okSMPCommand OFF -- | Irreversibly delete SMP queue and all messages in it. -- -- https://github.com/simplex-chat/simplexmq/blob/master/protocol/simplex-messaging.md#delete-queue deleteSMPQueue :: SMPClient -> RcvPrivateSignKey -> RecipientId -> ExceptT SMPClientError IO () deleteSMPQueue = okSMPCommand DEL -- | Delete multiple SMP queues batching commands if supported. deleteSMPQueues :: SMPClient -> NonEmpty (RcvPrivateSignKey, RecipientId) -> IO (NonEmpty (Either SMPClientError ())) deleteSMPQueues = okSMPCommands DEL okSMPCommand :: PartyI p => Command p -> SMPClient -> C.APrivateSignKey -> QueueId -> ExceptT SMPClientError IO () okSMPCommand cmd c pKey qId = sendSMPCommand c (Just pKey) qId cmd >>= \case OK -> return () r -> throwE . PCEUnexpectedResponse $ bshow r okSMPCommands :: PartyI p => Command p -> SMPClient -> NonEmpty (C.APrivateSignKey, QueueId) -> IO (NonEmpty (Either SMPClientError ())) okSMPCommands cmd c qs = L.map response <$> sendProtocolCommands c cs where aCmd = Cmd sParty cmd cs = L.map (\(pKey, qId) -> (Just pKey, qId, aCmd)) qs response = \case Right OK -> Right () Right r -> Left . PCEUnexpectedResponse $ bshow r Left e -> Left e -- | Send SMP command sendSMPCommand :: PartyI p => SMPClient -> Maybe C.APrivateSignKey -> QueueId -> Command p -> ExceptT SMPClientError IO BrokerMsg sendSMPCommand c pKey qId cmd = sendProtocolCommand c pKey qId (Cmd sParty cmd) -- | Send multiple commands with batching and collect responses sendProtocolCommands :: forall err msg. ProtocolEncoding err (ProtoCommand msg) => ProtocolClient err msg -> NonEmpty (ClientCommand msg) -> IO (NonEmpty (Either (ProtocolClientError err) msg)) sendProtocolCommands c@ProtocolClient {client_ = PClient {sndQ}} cs = do ts <- mapM (runExceptT . mkTransmission c) cs mapM_ (atomically . writeTBQueue sndQ . L.map fst) . L.nonEmpty . rights $ L.toList ts forConcurrently ts $ \case Right (_, r) -> withTimeout c $ atomically $ takeTMVar r Left e -> pure $ Left e -- | Send Protocol command sendProtocolCommand :: forall err msg. ProtocolEncoding err (ProtoCommand msg) => ProtocolClient err msg -> Maybe C.APrivateSignKey -> QueueId -> ProtoCommand msg -> ExceptT (ProtocolClientError err) IO msg sendProtocolCommand c@ProtocolClient {client_ = PClient {sndQ}} pKey qId cmd = do (t, r) <- mkTransmission c (pKey, qId, cmd) ExceptT $ sendRecv t r where -- two separate "atomically" needed to avoid blocking sendRecv :: SentRawTransmission -> TMVar (Response err msg) -> IO (Response err msg) sendRecv t r = atomically (writeTBQueue sndQ [t]) >> withTimeout c (atomically $ takeTMVar r) withTimeout :: ProtocolClient err msg -> IO (Either (ProtocolClientError err) msg) -> IO (Either (ProtocolClientError err) msg) withTimeout ProtocolClient {client_ = PClient {tcpTimeout, pingErrorCount}} a = timeout tcpTimeout a >>= \case Just r -> atomically (writeTVar pingErrorCount 0) >> pure r _ -> pure $ Left PCEResponseTimeout mkTransmission :: forall err msg. ProtocolEncoding err (ProtoCommand msg) => ProtocolClient err msg -> ClientCommand msg -> ExceptT (ProtocolClientError err) IO (SentRawTransmission, TMVar (Response err msg)) mkTransmission ProtocolClient {sessionId, thVersion, client_ = PClient {clientCorrId, sentCommands}} (pKey, qId, cmd) = do corrId <- liftIO $ atomically getNextCorrId let t = signTransmission $ encodeTransmission thVersion sessionId (corrId, qId, cmd) r <- liftIO . atomically $ mkRequest corrId pure (t, r) where getNextCorrId :: STM CorrId getNextCorrId = do i <- stateTVar clientCorrId $ \i -> (i, i + 1) pure . CorrId $ bshow i signTransmission :: ByteString -> SentRawTransmission signTransmission t = ((`C.sign` t) <$> pKey, t) mkRequest :: CorrId -> STM (TMVar (Response err msg)) mkRequest corrId = do r <- newEmptyTMVar TM.insert corrId (Request qId r) sentCommands pure r