{-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE MultiParamTypeClasses #-} module Yesod.WebSockets ( -- * Core API WebSocketsT , webSockets , receiveData , sendTextData , sendBinaryData -- * Conduit API , sourceWS , sinkWSText , sinkWSBinary -- * Async helpers , race , race_ , concurrently , concurrently_ ) where import qualified Control.Concurrent.Async as A import Control.Monad (forever, void, when) import Control.Monad.IO.Class (MonadIO (liftIO)) import Control.Monad.Trans.Control (control) import Control.Monad.Trans.Control (MonadBaseControl (liftBaseWith, restoreM)) import Control.Monad.Trans.Reader (ReaderT (ReaderT, runReaderT)) import qualified Data.Conduit as C import qualified Data.Conduit.List as CL import qualified Network.Wai.Handler.WebSockets as WaiWS import qualified Network.WebSockets as WS import qualified Yesod.Core as Y -- | A transformer for a WebSockets handler. -- -- Since 0.1.0 type WebSocketsT = ReaderT WS.Connection -- | Attempt to run a WebSockets handler. This function first checks if the -- client initiated a WebSockets connection and, if so, runs the provided -- application, short-circuiting the rest of your handler. If the client did -- not request a WebSockets connection, the rest of your handler will be called -- instead. -- -- Since 0.1.0 webSockets :: (Y.MonadBaseControl IO m, Y.MonadHandler m) => WebSocketsT m () -> m () webSockets inner = do req <- Y.waiRequest when (WaiWS.isWebSocketsReq req) $ Y.sendRawResponseNoConduit $ \src sink -> control $ \runInIO -> WaiWS.runWebSockets WS.defaultConnectionOptions (WaiWS.getRequestHead req) (\pconn -> do conn <- WS.acceptRequest pconn WS.forkPingThread conn 30 runInIO $ runReaderT inner conn) src sink -- | Receive a piece of data from the client. -- -- Since 0.1.0 receiveData :: (MonadIO m, WS.WebSocketsData a) => WebSocketsT m a receiveData = ReaderT $ liftIO . WS.receiveData -- | Send a textual message to the client. -- -- Since 0.1.0 sendTextData :: (MonadIO m, WS.WebSocketsData a) => a -> WebSocketsT m () sendTextData x = ReaderT $ liftIO . flip WS.sendTextData x -- | Send a binary message to the client. -- -- Since 0.1.0 sendBinaryData :: (MonadIO m, WS.WebSocketsData a) => a -> WebSocketsT m () sendBinaryData x = ReaderT $ liftIO . flip WS.sendBinaryData x -- | A @Source@ of WebSockets data from the user. -- -- Since 0.1.0 sourceWS :: (MonadIO m, WS.WebSocketsData a) => C.Producer (WebSocketsT m) a sourceWS = forever $ Y.lift receiveData >>= C.yield -- | A @Sink@ for sending textual data to the user. -- -- Since 0.1.0 sinkWSText :: (MonadIO m, WS.WebSocketsData a) => C.Consumer a (WebSocketsT m) () sinkWSText = CL.mapM_ sendTextData -- | A @Sink@ for sending binary data to the user. -- -- Since 0.1.0 sinkWSBinary :: (MonadIO m, WS.WebSocketsData a) => C.Consumer a (WebSocketsT m) () sinkWSBinary = CL.mapM_ sendBinaryData -- | Generalized version of 'A.race'. -- -- Since 0.1.0 race :: MonadBaseControl IO m => m a -> m b -> m (Either a b) race x y = liftBaseWith (\run -> A.race (run x) (run y)) >>= either (fmap Left . restoreM) (fmap Right . restoreM) -- | Generalized version of 'A.race_'. -- -- Since 0.1.0 race_ :: MonadBaseControl IO m => m a -> m b -> m () race_ x y = void $ race x y -- | Generalized version of 'A.concurrently'. Note that if your underlying -- monad has some kind of mutable state, the state from the second action will -- overwrite the state from the first. -- -- Since 0.1.0 concurrently :: MonadBaseControl IO m => m a -> m b -> m (a, b) concurrently x y = do (resX, resY) <- liftBaseWith $ \run -> A.concurrently (run x) (run y) x' <- restoreM resX y' <- restoreM resY return (x', y') -- | Run two actions concurrently (like 'A.concurrently'), but discard their -- results and any modified monadic state. -- -- Since 0.1.0 concurrently_ :: MonadBaseControl IO m => m a -> m b -> m () concurrently_ x y = void $ liftBaseWith $ \run -> A.concurrently (run x) (run y)