{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE FlexibleInstances #-}
+{-# LANGUAGE MultiParamTypeClasses #-}
+{-# LANGUAGE FlexibleContexts #-}
module Language.Haskell.LSP.Test.Session
( Session
, SessionConfig(..)
+ , SessionMessage(..)
, SessionContext(..)
, SessionState(..)
- , MonadSessionConfig(..)
, runSessionWithHandles
, get
, put
, modify
- , ask)
+ , ask
+ , asks
+ , sendMessage
+ , updateState
+ , withTimeout
+ )
where
import Control.Monad.Trans.Reader (ReaderT, runReaderT)
import qualified Control.Monad.Trans.Reader as Reader (ask)
import Control.Monad.Trans.State (StateT, runStateT)
-import qualified Control.Monad.Trans.State as State (get, put, modify)
+import qualified Control.Monad.Trans.State as State (get, put)
import qualified Data.ByteString.Lazy.Char8 as B
import Data.Aeson
-import Data.Conduit hiding (await)
-import Data.Conduit.Parser
+import Data.Conduit as Conduit
+import Data.Conduit.Parser as Parser
import Data.Default
import Data.Foldable
import Data.List
+import qualified Data.Map as Map
import qualified Data.Text as T
+import qualified Data.Text.IO as T
import qualified Data.HashMap.Strict as HashMap
+import Data.Maybe
+import Data.Function
import Language.Haskell.LSP.Messages
-import Language.Haskell.LSP.TH.ClientCapabilities
-import Language.Haskell.LSP.Types
+import Language.Haskell.LSP.Types.Capabilities
+import Language.Haskell.LSP.Types hiding (error)
import Language.Haskell.LSP.VFS
-import Language.Haskell.LSP.Test.Compat
import Language.Haskell.LSP.Test.Decoding
import Language.Haskell.LSP.Test.Exceptions
+import System.Console.ANSI
import System.Directory
import System.IO
-- | Stuff you can configure for a 'Session'.
data SessionConfig = SessionConfig
{
- capabilities :: ClientCapabilities, -- ^ Specific capabilities the client should advertise.
- timeout :: Int -- ^ Maximum time to wait for a request in seconds.
+ capabilities :: ClientCapabilities -- ^ Specific capabilities the client should advertise. Default is yes to everything.
+ , messageTimeout :: Int -- ^ Maximum time to wait for a message in seconds. Defaults to 60.
+ , logStdErr :: Bool -- ^ When True redirects the servers stderr output to haskell-lsp-test's stdout. Defaults to False
}
instance Default SessionConfig where
- def = SessionConfig def 60
+ def = SessionConfig def 60 False
-class Monad m => MonadSessionConfig m where
- sessionConfig :: m SessionConfig
-
-instance Monad m => MonadSessionConfig (StateT SessionState (ReaderT SessionContext m)) where
- sessionConfig = config <$> lift Reader.ask
+data SessionMessage = ServerMessage FromServerMessage
+ | TimeoutMessage Int
+ deriving Show
data SessionContext = SessionContext
{
serverIn :: Handle
, rootDir :: FilePath
- , messageChan :: Chan FromServerMessage
+ , messageChan :: Chan SessionMessage
, requestMap :: MVar RequestMap
, initRsp :: MVar InitializeResponse
, config :: SessionConfig
}
+class Monad m => HasReader r m where
+ ask :: m r
+ asks :: (r -> b) -> m b
+ asks f = f <$> ask
+
+instance Monad m => HasReader r (ParserStateReader a s r m) where
+ ask = lift $ lift Reader.ask
+
+instance Monad m => HasReader SessionContext (ConduitM a b (StateT s (ReaderT SessionContext m))) where
+ ask = lift $ lift Reader.ask
+
data SessionState = SessionState
{
curReqId :: LspId
, vfs :: VFS
+ , curDiagnostics :: Map.Map Uri [Diagnostic]
+ , curTimeoutId :: Int
+ , overridingTimeout :: Bool
+ -- ^ The last received message from the server.
+ -- Used for providing exception information
+ , lastReceivedMessage :: Maybe FromServerMessage
}
-type ParserStateReader a s r m = ConduitParser a (StateT s (ReaderT r m))
+class Monad m => HasState s m where
+ get :: m s
-type SessionProcessor = ConduitT FromServerMessage FromServerMessage (StateT SessionState (ReaderT SessionContext IO))
+ put :: s -> m ()
-runSession :: Chan FromServerMessage -> SessionProcessor () -> SessionContext -> SessionState -> Session a -> IO (a, SessionState)
-runSession chan preprocessor context state session = runReaderT (runStateT conduit state) context
- where conduit = runConduit $ chanSource chan .| preprocessor .| runConduitParser (catchError session handler)
- handler e@(Unexpected "ConduitParser.empty") = do
+ modify :: (s -> s) -> m ()
+ modify f = get >>= put . f
- -- Horrible way to get last item in conduit:
- -- Add a fake message so we can tell when to stop
- liftIO $ writeChan chan (RspShutdown (ResponseMessage "EMPTY" IdRspNull Nothing Nothing))
- x <- peek
- case x of
- Just x -> do
- lastMsg <- skipToEnd x
- name <- getParserName
- liftIO $ throw (UnexpectedMessageException (T.unpack name) lastMsg)
- Nothing -> throw e
+instance Monad m => HasState s (ParserStateReader a s r m) where
+ get = lift State.get
+ put = lift . State.put
- handler e = throw e
+instance Monad m => HasState SessionState (ConduitM a b (StateT SessionState m))
+ where
+ get = lift State.get
+ put = lift . State.put
- skipToEnd x = do
- y <- peek
- case y of
- Just (RspShutdown (ResponseMessage "EMPTY" IdRspNull Nothing Nothing)) -> return x
- Just _ -> await >>= skipToEnd
- Nothing -> return x
+type ParserStateReader a s r m = ConduitParser a (StateT s (ReaderT r m))
-get :: Monad m => ParserStateReader a s r m s
-get = lift State.get
+runSession :: SessionContext -> SessionState -> Session a -> IO (a, SessionState)
+runSession context state session = runReaderT (runStateT conduit state) context
+ where
+ conduit = runConduit $ chanSource .| watchdog .| updateStateC .| runConduitParser (catchError session handler)
-put :: Monad m => s -> ParserStateReader a s r m ()
-put = lift . State.put
+ handler (Unexpected "ConduitParser.empty") = do
+ lastMsg <- fromJust . lastReceivedMessage <$> get
+ name <- getParserName
+ liftIO $ throw (UnexpectedMessage (T.unpack name) lastMsg)
+
+ handler e = throw e
+
+ chanSource = do
+ msg <- liftIO $ readChan (messageChan context)
+ yield msg
+ chanSource
-modify :: Monad m => (s -> s) -> ParserStateReader a s r m ()
-modify = lift . State.modify
-ask :: Monad m => ParserStateReader a s r m r
-ask = lift $ lift Reader.ask
+ watchdog :: ConduitM SessionMessage FromServerMessage (StateT SessionState (ReaderT SessionContext IO)) ()
+ watchdog = Conduit.awaitForever $ \msg -> do
+ curId <- curTimeoutId <$> get
+ case msg of
+ ServerMessage sMsg -> yield sMsg
+ TimeoutMessage tId -> when (curId == tId) $ throw Timeout
-- | An internal version of 'runSession' that allows for a custom handler to listen to the server.
-- It also does not automatically send initialize and exit messages.
runSessionWithHandles :: Handle -- ^ Server in
-> Handle -- ^ Server out
- -> (Handle -> Session ()) -- ^ Server listener
+ -> (Handle -> SessionContext -> IO ()) -- ^ Server listener
-> SessionConfig
-> FilePath
-> Session a
reqMap <- newMVar newRequestMap
messageChan <- newChan
- meaninglessChan <- newChan
initRsp <- newEmptyMVar
let context = SessionContext serverIn absRootDir messageChan reqMap initRsp config
- initState = SessionState (IdInt 0) mempty
+ initState = SessionState (IdInt 0) mempty mempty 0 False Nothing
- threadId <- forkIO $ void $ runSession meaninglessChan processor context initState (serverHandler serverOut)
- (result, _) <- runSession messageChan processor context initState session
+ threadId <- forkIO $ void $ serverHandler serverOut context
+ (result, _) <- runSession context initState session
killThread threadId
return result
- where processor :: SessionProcessor ()
- processor = awaitForever $ \msg -> do
- processTextChanges msg
+updateStateC :: ConduitM FromServerMessage FromServerMessage (StateT SessionState (ReaderT SessionContext IO)) ()
+updateStateC = awaitForever $ \msg -> do
+ updateState msg
yield msg
+updateState :: (MonadIO m, HasReader SessionContext m, HasState SessionState m) => FromServerMessage -> m ()
+updateState (NotPublishDiagnostics n) = do
+ let List diags = n ^. params . diagnostics
+ doc = n ^. params . uri
+ modify (\s ->
+ let newDiags = Map.insert doc diags (curDiagnostics s)
+ in s { curDiagnostics = newDiags })
-processTextChanges :: FromServerMessage -> SessionProcessor ()
-processTextChanges (ReqApplyWorkspaceEdit r) = do
- List changeParams <- case r ^. params . edit . documentChanges of
- Just cs -> mapM applyTextDocumentEdit cs
+updateState (ReqApplyWorkspaceEdit r) = do
+
+ oldVFS <- vfs <$> get
+
+ allChangeParams <- case r ^. params . edit . documentChanges of
+ Just (List cs) -> do
+ mapM_ (checkIfNeedsOpened . (^. textDocument . uri)) cs
+ return $ map getParams cs
Nothing -> case r ^. params . edit . changes of
- Just cs -> mapM (uncurry applyTextEdit) (List (HashMap.toList cs))
- Nothing -> return (List [])
+ Just cs -> do
+ mapM_ checkIfNeedsOpened (HashMap.keys cs)
+ return $ concatMap (uncurry getChangeParams) (HashMap.toList cs)
+ Nothing -> error "No changes!"
- let groupedParams = groupBy (\a b -> (a ^. textDocument == b ^. textDocument)) changeParams
+ newVFS <- liftIO $ changeFromServerVFS oldVFS r
+ modify (\s -> s { vfs = newVFS })
+
+ let groupedParams = groupBy (\a b -> (a ^. textDocument == b ^. textDocument)) allChangeParams
mergedParams = map mergeParams groupedParams
-- TODO: Don't do this when replaying a session
- forM_ mergedParams $ \p -> do
- h <- serverIn <$> lift (lift Reader.ask)
- let msg = NotificationMessage "2.0" TextDocumentDidChange p
- liftIO $ B.hPut h $ addHeader (encode msg)
-
- where applyTextDocumentEdit (TextDocumentEdit docId (List edits)) = do
- oldVFS <- vfs <$> lift State.get
+ forM_ mergedParams (sendMessage . NotificationMessage "2.0" TextDocumentDidChange)
+
+ -- Update VFS to new document versions
+ let sortedVersions = map (sortBy (compare `on` (^. textDocument . version))) groupedParams
+ latestVersions = map ((^. textDocument) . last) sortedVersions
+ bumpedVersions = map (version . _Just +~ 1) latestVersions
+
+ forM_ bumpedVersions $ \(VersionedTextDocumentIdentifier uri v) ->
+ modify $ \s ->
+ let oldVFS = vfs s
+ update (VirtualFile oldV t) = VirtualFile (fromMaybe oldV v) t
+ newVFS = Map.adjust update uri oldVFS
+ in s { vfs = newVFS }
+
+ where checkIfNeedsOpened uri = do
+ oldVFS <- vfs <$> get
+ ctx <- ask
+
+ -- if its not open, open it
+ unless (uri `Map.member` oldVFS) $ do
+ let fp = fromJust $ uriToFilePath uri
+ contents <- liftIO $ T.readFile fp
+ let item = TextDocumentItem (filePathToUri fp) "" 0 contents
+ msg = NotificationMessage "2.0" TextDocumentDidOpen (DidOpenTextDocumentParams item)
+ liftIO $ B.hPut (serverIn ctx) $ addHeader (encode msg)
+
+ oldVFS <- vfs <$> get
+ newVFS <- liftIO $ openVFS oldVFS msg
+ modify (\s -> s { vfs = newVFS })
+
+ getParams (TextDocumentEdit docId (List edits)) =
let changeEvents = map (\e -> TextDocumentContentChangeEvent (Just (e ^. range)) Nothing (e ^. newText)) edits
- params = DidChangeTextDocumentParams docId (List changeEvents)
- newVFS <- liftIO $ changeVFS oldVFS (fmClientDidChangeTextDocumentNotification params)
- lift $ State.modify (\s -> s { vfs = newVFS })
- return params
+ in DidChangeTextDocumentParams docId (List changeEvents)
- applyTextEdit uri edits = applyTextDocumentEdit (TextDocumentEdit (VersionedTextDocumentIdentifier uri 0) edits)
+ textDocumentVersions uri = map (VersionedTextDocumentIdentifier uri . Just) [0..]
+
+ textDocumentEdits uri edits = map (\(v, e) -> TextDocumentEdit v (List [e])) $ zip (textDocumentVersions uri) edits
+
+ getChangeParams uri (List edits) = map getParams (textDocumentEdits uri (reverse edits))
mergeParams :: [DidChangeTextDocumentParams] -> DidChangeTextDocumentParams
mergeParams params = let events = concat (toList (map (toList . (^. contentChanges)) params))
in DidChangeTextDocumentParams (head params ^. textDocument) (List events)
-processTextChanges _ = return ()
+updateState _ = return ()
+
+sendMessage :: (MonadIO m, HasReader SessionContext m, ToJSON a) => a -> m ()
+sendMessage msg = do
+ h <- serverIn <$> ask
+ let encoded = encode msg
+ liftIO $ do
+
+ setSGR [SetColor Foreground Vivid Cyan]
+ putStrLn $ "--> " ++ B.unpack encoded
+ setSGR [Reset]
+
+ B.hPut h (addHeader encoded)
+
+-- | Execute a block f that will throw a 'TimeoutException'
+-- after duration seconds. This will override the global timeout
+-- for waiting for messages to arrive defined in 'SessionConfig'.
+withTimeout :: Int -> Session a -> Session a
+withTimeout duration f = do
+ chan <- asks messageChan
+ timeoutId <- curTimeoutId <$> get
+ modify $ \s -> s { overridingTimeout = True }
+ liftIO $ forkIO $ do
+ threadDelay (duration * 1000000)
+ writeChan chan (TimeoutMessage timeoutId)
+ res <- f
+ modify $ \s -> s { curTimeoutId = timeoutId + 1,
+ overridingTimeout = False
+ }
+ return res