X-Git-Url: http://git.lukelau.me/?a=blobdiff_plain;f=src%2FLanguage%2FHaskell%2FLSP%2FTest%2FRecorded.hs;h=6ec19c2a0059a19430a802248f7e65f59c6c05ad;hb=5e5c00290ef9cad30bfcebcd579047ed59d5cdae;hp=6bf23198ead14d93b718f61f326107dffa81cc9b;hpb=311e9ea018ce1721cd79341243b79afdda85e2f1;p=lsp-test.git diff --git a/src/Language/Haskell/LSP/Test/Recorded.hs b/src/Language/Haskell/LSP/Test/Recorded.hs index 6bf2319..6ec19c2 100644 --- a/src/Language/Haskell/LSP/Test/Recorded.hs +++ b/src/Language/Haskell/LSP/Test/Recorded.hs @@ -5,24 +5,32 @@ module Language.Haskell.LSP.Test.Recorded where import Control.Concurrent -import Control.Monad import Data.Default import Language.Haskell.LSP.Control as Control import qualified Data.ByteString.Lazy.Char8 as B import Language.Haskell.LSP.Core import qualified Language.Haskell.LSP.Types as LSP import Data.Aeson +import Data.List +import Data.Maybe +import Control.Lens +import Control.Monad import System.IO +import System.Directory import System.Process -- | Replays a recorded client output and -- makes sure it matches up with an expected response. -replay :: FilePath -- ^ The client output to replay to the server. +replay + :: FilePath -- ^ The client output to replay to the server. -> FilePath -- ^ The expected response from the server. - -> IO Int + -> IO Bool replay cfp sfp = do - (Just serverIn, Just serverOut, _, _) <- createProcess + -- need to keep hold of current directory since haskell-lsp changes it + prevDir <- getCurrentDirectory + + (Just serverIn, Just serverOut, _, serverProc) <- createProcess (proc "hie" ["--lsp", "-l", "/tmp/hie.log", "-d"]) { std_in = CreatePipe , std_out = CreatePipe } @@ -30,44 +38,126 @@ replay cfp sfp = do hSetBuffering serverIn NoBuffering hSetBuffering serverOut NoBuffering + -- todo: use qsem -- whether to send the next request - semaphore <- newEmptyMVar + reqSema <- newEmptyMVar :: IO (MVar LSP.LspIdRsp) + -- whether to send the next response + rspSema <- newEmptyMVar :: IO (MVar LSP.LspId) + let semas = (reqSema, rspSema) + + didPass <- newEmptyMVar -- the recorded client input to the server clientRecIn <- openFile cfp ReadMode serverRecIn <- openFile sfp ReadMode null <- openFile "/dev/null" WriteMode + expectedMsgs <- getAllMessages serverRecIn + -- listen to server - forkIO $ forever $ do - msg <- getNextMessage serverOut - expectedMsg <- getNextMessage serverRecIn - putStrLn $ "received: " ++ (show msg) - putStrLn $ "next expected: " ++ (show expectedMsg) - case decode msg :: Maybe (LSP.RequestMessage Value Value Value) of - Just _ -> putStrLn "ignoring request" >> return () - Nothing -> when (msg /= expectedMsg) $ error ("Expected " ++ show expectedMsg ++ " but got " ++ show msg) - case decode msg :: Maybe (LSP.ResponseMessage Value) of - Just _ -> putMVar semaphore () - Nothing -> return () -- might be a notification or something, that's ok - - -- send inialize request ourselves since haskell-lsp consumes it - -- rest are handled via `handlers` - sendInitialize clientRecIn serverIn + forkIO $ listenServer expectedMsgs serverOut semas didPass + -- start client replay + forkIO $ do Control.runWithHandles clientRecIn null (const $ Right (), const $ return Nothing) - (handlers serverIn semaphore) + (handlers serverIn semas) def Nothing Nothing + + -- todo: we shouldn't do this, we should check all notifications were delivered first + putMVar didPass True + + result <- takeMVar didPass + terminateProcess serverProc + + -- restore directory + setCurrentDirectory prevDir + + return result + +-- todo: Maybe make a reader monad and a fail function for it? +listenServer + :: [B.ByteString] + -> Handle + -> (MVar LSP.LspIdRsp, MVar LSP.LspId) + -> MVar Bool + -> IO () +listenServer [] _ _ passVar = putMVar passVar True +listenServer expectedMsgs h semas@(reqSema, rspSema) passVar = do + msg <- getNextMessage h + putStrLn $ "Remaining messages " ++ show (length expectedMsgs) + if inRightOrder msg expectedMsgs + then do + + whenResponse msg $ \res -> do + putStrLn $ "Got response for id " ++ show (res ^. LSP.id) + putMVar reqSema (res ^. LSP.id) -- unblock the handler waiting to send a request + + whenRequest msg $ \req -> do + putStrLn $ "Got request for id " ++ show (req ^. LSP.id) ++ " " ++ show (req ^. LSP.method) + putMVar rspSema (req ^. LSP.id) -- unblock the handler waiting for a response + + whenNotification msg $ \n -> putStrLn $ "Got notification " ++ (show (n ^. LSP.method)) + + when (not (msg `elem` expectedMsgs)) $ do + putStrLn "Got an unexpected message" + putMVar passVar False + + listenServer (delete msg expectedMsgs) h semas passVar + else do + putStrLn $ "Got: " ++ show msg ++ "\n Expected: " ++ show + (head (filter (not . isNotification) expectedMsgs)) + putMVar passVar False + +isNotification :: B.ByteString -> Bool +isNotification msg = + isJust (decode msg :: Maybe (LSP.NotificationMessage Value Value)) + +whenResponse :: B.ByteString -> (LSP.ResponseMessage Value -> IO ()) -> IO () +whenResponse msg f = case decode msg :: Maybe (LSP.ResponseMessage Value) of + Just msg' -> when (isJust (msg' ^. LSP.result)) (f msg') + _ -> return () + +whenRequest + :: B.ByteString -> (LSP.RequestMessage Value Value Value -> IO ()) -> IO () +whenRequest msg = + forM_ (decode msg :: (Maybe (LSP.RequestMessage Value Value Value))) + +whenNotification :: B.ByteString -> (LSP.NotificationMessage Value Value -> IO ()) -> IO () +whenNotification msg = forM_ (decode msg :: (Maybe (LSP.NotificationMessage Value Value))) + +-- TODO: QuickCheck tests? +-- | Checks wether or not the message appears in the right order +-- @ N1 N2 N3 REQ1 N4 N5 REQ2 RES1 @ +-- given N2, notification order doesn't matter. +-- @ N1 N3 REQ1 N4 N5 REQ2 RES1 @ +-- given REQ1 +-- @ N1 N3 N4 N5 REQ2 RES1 @ +-- given RES1 +-- @ N1 N3 N4 N5 XXXX RES1 @ False! +-- Order of requests and responses matter +inRightOrder :: B.ByteString -> [B.ByteString] -> Bool +inRightOrder _ [] = error "why is this empty" +inRightOrder received msgs = received `elem` valid where - sendInitialize recH serverH = do - message <- getNextMessage recH - B.hPut serverH (addHeader message) - -- bring the file back to the start for haskell-lsp - hSeek recH AbsoluteSeek 0 + valid = takeWhile canSkip msgs ++ firstNonSkip + -- we don't care about the order of notifications + canSkip = isNotification + nonSkip = dropWhile canSkip msgs + firstNonSkip | null nonSkip = [] + | otherwise = [head nonSkip] + +getAllMessages :: Handle -> IO [B.ByteString] +getAllMessages h = do + done <- hIsEOF h + if done + then return [] + else do + msg <- getNextMessage h + (msg :) <$> getAllMessages h -- | Fetches the next message bytes based on -- the Content-Length header @@ -79,8 +169,8 @@ getNextMessage h = do Just size -> B.hGet h size -handlers :: Handle -> MVar () -> Handlers -handlers serverH flag = def +handlers :: Handle -> (MVar LSP.LspIdRsp, MVar LSP.LspId) -> Handlers +handlers serverH (reqSema, rspSema) = def { -- Requests hoverHandler = Just request @@ -102,6 +192,7 @@ handlers serverH flag = def , documentLinkHandler = Just request , documentLinkResolveHandler = Just request , executeCommandHandler = Just request + , initializeRequestHandler = Just request -- Notifications , didChangeConfigurationParamsHandler = Just notification , didOpenTextDocumentNotificationHandler = Just notification @@ -112,17 +203,41 @@ handlers serverH flag = def , initializedHandler = Just notification , willSaveTextDocumentNotificationHandler = Just notification , cancelNotificationHandler = Just notification - , responseHandler = Just notification + , exitNotificationHandler = Just notification + -- Responses + , responseHandler = Just response } where - notification m = do - B.hPut serverH $ addHeader (encode m) - putStrLn "sent a notification" - request m = do - B.hPut serverH $ addHeader (encode m) - putStrLn "sent a request, waiting for a response" - takeMVar flag - putStrLn "got a response" + -- TODO: May need to prevent premature exit notification being sent + -- notification msg@(LSP.NotificationMessage _ LSP.Exit _) = do + -- putStrLn "Will send exit notification soon" + -- threadDelay 10000000 + -- B.hPut serverH $ addHeader (encode msg) + notification msg@(LSP.NotificationMessage _ m _) = do + B.hPut serverH $ addHeader (encode msg) + + putStrLn $ "Sent a notification " ++ show m + + request msg@(LSP.RequestMessage _ id m _) = do + B.hPut serverH $ addHeader (encode msg) + putStrLn $ "Sent a request id " ++ show id ++ ": " ++ show m ++ "\nWaiting for a response" + + rspId <- takeMVar reqSema + when (LSP.responseId id /= rspId) + $ error + $ "Expected id " + ++ show id + ++ ", got " + ++ show rspId + + response msg@(LSP.ResponseMessage _ id _ _) = do + putStrLn $ "Waiting for request id " ++ show id ++ " from the server" + reqId <- takeMVar rspSema + if LSP.responseId reqId /= id + then error $ "Expected id " ++ show reqId ++ ", got " ++ show reqId + else do + B.hPut serverH $ addHeader (encode msg) + putStrLn $ "Sent response to request id " ++ show id addHeader :: B.ByteString -> B.ByteString addHeader content = B.concat