{-# LANGUAGE CPP #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} module RunSpec (main, spec, withApp) where import Control.Concurrent (forkIO, killThread, threadDelay) import Control.Monad (forM_, replicateM_, unless) import System.Timeout (timeout) import Control.Monad.IO.Class (MonadIO, liftIO) import Data.ByteString (ByteString, hPutStr, hGetSome) import qualified Control.Exception as E import qualified Data.ByteString as S import qualified Data.ByteString.Char8 as S8 import qualified Data.ByteString.Lazy as L import qualified Data.IORef as I import Network (connectTo, PortID (PortNumber)) import Network.HTTP.Types import Network.Wai import Network.Wai.Handler.Warp import System.IO (hFlush, hClose) import System.IO.Unsafe (unsafePerformIO) import Test.Hspec import Control.Concurrent.MVar (newEmptyMVar, takeMVar, putMVar) import Control.Exception.Lifted (bracket, try, IOException, onException) import Data.Streaming.Network (bindPortTCP, getSocketTCP, safeRecv) import Network.Socket (sClose) import qualified Network.HTTP as HTTP import Blaze.ByteString.Builder (fromByteString) import Network.Socket.ByteString (sendAll) main :: IO () main = hspec spec type Counter = I.IORef (Either String Int) type CounterApplication = Counter -> Application incr :: MonadIO m => Counter -> m () incr icount = liftIO $ I.atomicModifyIORef icount $ \ecount -> ((case ecount of Left s -> Left s Right i -> Right $ i + 1), ()) err :: (MonadIO m, Show a) => Counter -> a -> m () err icount msg = liftIO $ I.writeIORef icount $ Left $ show msg readBody :: CounterApplication readBody icount req f = do body <- consumeBody $ requestBody req case () of () | pathInfo req == ["hello"] && L.fromChunks body /= "Hello" -> err icount ("Invalid hello" :: String, body) | requestMethod req == "GET" && L.fromChunks body /= "" -> err icount ("Invalid GET" :: String, body) | not $ requestMethod req `elem` ["GET", "POST"] -> err icount ("Invalid request method (readBody)" :: String, requestMethod req) | otherwise -> incr icount f $ responseLBS status200 [] "Read the body" ignoreBody :: CounterApplication ignoreBody icount req f = do if (requestMethod req `elem` ["GET", "POST"]) then incr icount else err icount ("Invalid request method" :: String, requestMethod req) f $ responseLBS status200 [] "Ignored the body" doubleConnect :: CounterApplication doubleConnect icount req f = do _ <- consumeBody $ requestBody req _ <- consumeBody $ requestBody req incr icount f $ responseLBS status200 [] "double connect" nextPort :: I.IORef Int nextPort = unsafePerformIO $ I.newIORef 5000 {-# NOINLINE nextPort #-} getPort :: IO Int getPort = do port <- I.atomicModifyIORef nextPort $ \p -> (p + 1, p) esocket <- try $ bindPortTCP port "127.0.0.1" case esocket of Left (_ :: IOException) -> RunSpec.getPort Right socket -> do sClose socket return port withApp :: Settings -> Application -> (Int -> IO a) -> IO a withApp settings app f = do port <- RunSpec.getPort baton <- newEmptyMVar let settings' = setPort port $ setHost "127.0.0.1" $ setBeforeMainLoop (putMVar baton ()) settings bracket (forkIO $ runSettings settings' app `onException` putMVar baton ()) killThread (const $ takeMVar baton >> f port) runTest :: Int -- ^ expected number of requests -> CounterApplication -> [ByteString] -- ^ chunks to send -> IO () runTest expected app chunks = do ref <- I.newIORef (Right 0) withApp defaultSettings (app ref) $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port forM_ chunks $ \chunk -> hPutStr handle chunk >> hFlush handle _ <- timeout 100000 $ replicateM_ expected $ hGetSome handle 4096 res <- I.readIORef ref case res of Left s -> error s Right i -> i `shouldBe` expected dummyApp :: Application dummyApp _ f = f $ responseLBS status200 [] "foo" runTerminateTest :: InvalidRequest -> ByteString -> IO () runTerminateTest expected input = do ref <- I.newIORef Nothing let onExc _ = I.writeIORef ref . Just withApp (setOnException onExc defaultSettings) dummyApp $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port hPutStr handle input hFlush handle hClose handle threadDelay 1000 res <- I.readIORef ref show res `shouldBe` show (Just expected) singleGet :: ByteString singleGet = "GET / HTTP/1.1\r\nHost: localhost\r\n\r\n" singlePostHello :: ByteString singlePostHello = "POST /hello HTTP/1.1\r\nHost: localhost\r\nContent-length: 5\r\n\r\nHello" singleChunkedPostHello :: [ByteString] singleChunkedPostHello = [ "POST /hello HTTP/1.1\r\nHost: localhost\r\nTransfer-Encoding: chunked\r\n\r\n" , "5\r\nHello\r\n0\r\n" ] spec :: Spec spec = do describe "non-pipelining" $ do it "no body, read" $ runTest 5 readBody $ replicate 5 singleGet it "no body, ignore" $ runTest 5 ignoreBody $ replicate 5 singleGet it "has body, read" $ runTest 2 readBody [ singlePostHello , singleGet ] it "has body, ignore" $ runTest 2 ignoreBody [ singlePostHello , singleGet ] it "chunked body, read" $ runTest 2 readBody $ concat [ singleChunkedPostHello , [singleGet] ] it "chunked body, ignore" $ runTest 2 ignoreBody $ concat [ singleChunkedPostHello , [singleGet] ] describe "pipelining" $ do it "no body, read" $ runTest 5 readBody [S.concat $ replicate 5 singleGet] it "no body, ignore" $ runTest 5 ignoreBody [S.concat $ replicate 5 singleGet] it "has body, read" $ runTest 2 readBody $ return $ S.concat [ singlePostHello , singleGet ] it "has body, ignore" $ runTest 2 ignoreBody $ return $ S.concat [ singlePostHello , singleGet ] it "chunked body, read" $ runTest 2 readBody $ return $ S.concat [ S.concat singleChunkedPostHello , singleGet ] it "chunked body, ignore" $ runTest 2 ignoreBody $ return $ S.concat [ S.concat singleChunkedPostHello , singleGet ] describe "no hanging" $ do it "has body, read" $ runTest 1 readBody $ map S.singleton $ S.unpack singlePostHello it "double connect" $ runTest 1 doubleConnect [singlePostHello] describe "connection termination" $ do -- it "ConnectionClosedByPeer" $ runTerminateTest ConnectionClosedByPeer "GET / HTTP/1.1\r\ncontent-length: 10\r\n\r\nhello" it "IncompleteHeaders" $ runTerminateTest IncompleteHeaders "GET / HTTP/1.1\r\ncontent-length: 10\r\n" describe "special input" $ do it "multiline headers" $ do iheaders <- I.newIORef [] let app req f = do liftIO $ I.writeIORef iheaders $ requestHeaders req f $ responseLBS status200 [] "" withApp defaultSettings app $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port let input = S.concat [ "GET / HTTP/1.1\r\nfoo: bar\r\n baz\r\n\tbin\r\n\r\n" ] hPutStr handle input hFlush handle hClose handle threadDelay 1000 headers <- I.readIORef iheaders headers `shouldBe` [ ("foo", "bar baz\tbin") ] it "no space between colon and value" $ do iheaders <- I.newIORef [] let app req f = do liftIO $ I.writeIORef iheaders $ requestHeaders req f $ responseLBS status200 [] "" withApp defaultSettings app $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port let input = S.concat [ "GET / HTTP/1.1\r\nfoo:bar\r\n\r\n" ] hPutStr handle input hFlush handle hClose handle threadDelay 1000 headers <- I.readIORef iheaders headers `shouldBe` [ ("foo", "bar") ] describe "chunked bodies" $ do it "works" $ do ifront <- I.newIORef id let app req f = do bss <- consumeBody $ requestBody req liftIO $ I.atomicModifyIORef ifront $ \front -> (front . (S.concat bss:), ()) f $ responseLBS status200 [] "" withApp defaultSettings app $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port let input = S.concat [ "POST / HTTP/1.1\r\nTransfer-Encoding: Chunked\r\n\r\n" , "c\r\nHello World\n\r\n3\r\nBye\r\n0\r\n\r\n" , "POST / HTTP/1.1\r\nTransfer-Encoding: Chunked\r\n\r\n" , "b\r\nHello World\r\n0\r\n\r\n" ] hPutStr handle input hFlush handle hClose handle threadDelay 1000 front <- I.readIORef ifront front [] `shouldBe` [ "Hello World\nBye" , "Hello World" ] it "lots of chunks" $ do ifront <- I.newIORef id let app req f = do bss <- consumeBody $ requestBody req I.atomicModifyIORef ifront $ \front -> (front . (S.concat bss:), ()) f $ responseLBS status200 [] "" withApp defaultSettings app $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port let input = concat $ replicate 2 $ ["POST / HTTP/1.1\r\nTransfer-Encoding: Chunked\r\n\r\n"] ++ (replicate 50 "5\r\n12345\r\n") ++ ["0\r\n\r\n"] mapM_ (\bs -> hPutStr handle bs >> hFlush handle) input hClose handle threadDelay 100000 -- FIXME why does this delay need to be so high? front <- I.readIORef ifront front [] `shouldBe` replicate 2 (S.concat $ replicate 50 "12345") it "in chunks" $ do ifront <- I.newIORef id let app req f = do bss <- consumeBody $ requestBody req liftIO $ I.atomicModifyIORef ifront $ \front -> (front . (S.concat bss:), ()) f $ responseLBS status200 [] "" withApp defaultSettings app $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port let input = S.concat [ "POST / HTTP/1.1\r\nTransfer-Encoding: Chunked\r\n\r\n" , "c\r\nHello World\n\r\n3\r\nBye\r\n0\r\n" , "POST / HTTP/1.1\r\nTransfer-Encoding: Chunked\r\n\r\n" , "b\r\nHello World\r\n0\r\n\r\n" ] mapM_ (\bs -> hPutStr handle bs >> hFlush handle) $ map S.singleton $ S.unpack input hClose handle threadDelay 1000 front <- I.readIORef ifront front [] `shouldBe` [ "Hello World\nBye" , "Hello World" ] it "timeout in request body" $ do ifront <- I.newIORef id let app req f = do bss <- (consumeBody $ requestBody req) `onException` liftIO (I.atomicModifyIORef ifront (\front -> (front . ("consume interrupted":), ()))) liftIO $ threadDelay 4000000 `E.catch` \e -> do I.atomicModifyIORef ifront (\front -> ( front . ((S8.pack $ "threadDelay interrupted: " ++ show e):) , ())) E.throwIO (e :: E.SomeException) liftIO $ I.atomicModifyIORef ifront $ \front -> (front . (S.concat bss:), ()) f $ responseLBS status200 [] "" withApp (setTimeout 1 defaultSettings) app $ \port -> do let bs1 = S.replicate 2048 88 bs2 = "This is short" bs = S.append bs1 bs2 handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port hPutStr handle "POST / HTTP/1.1\r\n" hPutStr handle "content-length: " hPutStr handle $ S8.pack $ show $ S.length bs hPutStr handle "\r\n\r\n" threadDelay 100000 hPutStr handle bs1 threadDelay 100000 hPutStr handle bs2 hClose handle threadDelay 5000000 front <- I.readIORef ifront S.concat (front []) `shouldBe` bs describe "raw body" $ do it "works" $ do let app _req f = do let backup = responseLBS status200 [] "Not raw" f $ flip responseRaw backup $ \src sink -> do let loop = do bs <- src unless (S.null bs) $ do sink $ doubleBS bs loop loop doubleBS = S.concatMap $ \w -> S.pack [w, w] withApp defaultSettings app $ \port -> do handle <- connectTo "127.0.0.1" $ PortNumber $ fromIntegral port hPutStr handle "POST / HTTP/1.1\r\n\r\n12345" hFlush handle timeout 100000 (S.hGet handle 10) >>= (`shouldBe` Just "1122334455") hPutStr handle "67890" hFlush handle timeout 100000 (S.hGet handle 10) >>= (`shouldBe` Just "6677889900") it "only one date and server header" $ do let app _ f = f $ responseLBS status200 [ ("server", "server") , ("date", "date") ] "" withApp defaultSettings app $ \port -> do Right res <- HTTP.simpleHTTP (HTTP.getRequest $ "http://127.0.0.1:" ++ show port) map HTTP.hdrValue (HTTP.retrieveHeaders HTTP.HdrServer res) `shouldBe` ["server"] map HTTP.hdrValue (HTTP.retrieveHeaders HTTP.HdrDate res) `shouldBe` ["date"] it "streaming echo #249" $ do let app req f = f $ responseStream status200 [] $ \write _ -> do let loop = do bs <- requestBody req unless (S.null bs) $ do write $ fromByteString bs loop loop withApp defaultSettings app $ \port -> do (socket, _addr) <- getSocketTCP "127.0.0.1" port sendAll socket "POST / HTTP/1.1\r\ntransfer-encoding: chunked\r\n\r\n" threadDelay 10000 sendAll socket "5\r\nhello\r\n0\r\n\r\n" bs <- safeRecv socket 4096 S.takeWhile (/= 13) bs `shouldBe` "HTTP/1.1 200 OK" it "streaming response with length" $ do let app _ f = f $ responseStream status200 [("content-length", "20")] $ \write _ -> do replicateM_ 4 $ write $ fromByteString "Hello" withApp defaultSettings app $ \port -> do Right res <- HTTP.simpleHTTP (HTTP.getRequest $ "http://127.0.0.1:" ++ show port) HTTP.rspBody res `shouldBe` "HelloHelloHelloHello" consumeBody :: IO ByteString -> IO [ByteString] consumeBody body = loop id where loop front = do bs <- body if S.null bs then return $ front [] else loop $ front . (bs:)