{-# LANGUAGE RecordWildCards #-} module Handler.Shared where import Import import Control.Concurrent.STM import Data.IntMap (IntMap) import qualified Data.IntMap as IntMap import Network.URI import qualified Data.Text as T import Database.Persist.Sql (ConnectionPool, runSqlPool) import Control.Concurrent.Lifted (fork, threadDelay) import System.Process import System.Exit import System.Random import PersistSHA1 import qualified Data.ByteString as BS atom = Control.Concurrent.STM.atomically type Channel = TChan (Maybe Text) arena :: FilePath arena = "arena" gitPath :: FilePath gitPath = "/usr/bin/git" runViewProgress :: (Channel -> Handler ()) -> Handler TypedContent runViewProgress action = do App {..} <- getYesod jobId <- randomInt chan <- liftIO $ atom $ do chan <- newBroadcastTChan m <- readTVar jobs writeTVar jobs $ IntMap.insert jobId chan m return chan fork $ do liftIO $ threadDelay 1000000 action chan liftIO $ atom $ do writeTChan chan $ Just "All done\n" writeTChan chan Nothing m <- readTVar jobs writeTVar jobs $ IntMap.delete jobId m redirect $ ViewProgressR jobId msg :: Channel -> Text -> Handler () msg chan m = liftIO $ atom $ writeTChan chan $ Just (m ++ "\n") err :: Channel -> Text -> Handler () err = msg raw :: Channel -> Text -> Handler () raw = msg doRepoCloning :: Text -> Text -> Channel -> Handler () doRepoCloning url branch chan = do msg chan "Did something" _ <- cloneRepo url branch chan return () validGitProtocols :: [String] validGitProtocols = ["git", "http", "https", "ssh"] validGitProtocolsAsText :: Text validGitProtocolsAsText = T.pack $ intercalate ", " $ map (++"://") validGitProtocols cloneRepo :: Text -> Text -> Channel -> Handler (Maybe (Key Repo)) cloneRepo url branch chan = do maybeRepo <- runDB $ getBy $ UniqueUrlBranch url branch case maybeRepo of Just _ -> do err chan "Repo already there" return Nothing Nothing -> do msg chan $ concat ["Preparing to clone repo ", url] if checkRepoUrl url then do msg chan "Cloning..." r <- randomInt let repoDir = arena ("t" ++ show r) (exitCode, _) <- runProgram Nothing gitPath ["clone", "--progress", "--branch", T.unpack branch, T.unpack url, repoDir] chan case exitCode of ExitSuccess -> do (exitCode, out) <- runProgram (Just repoDir) gitPath ["rev-parse", "HEAD"] chan case exitCode of ExitSuccess -> do msg chan $ concat ["HEAD commit is ", commitId] userId <- requireAuthId time <- liftIO getCurrentTime repoId <- runDB $ insert $ Repo { repoUrl=url, repoBranch=branch, repoCurrentCommit=commitRaw, repoOwner=userId, repoReady=True, repoStamp=time } return $ Just repoId where commitId = T.replace "\n" "" out commitRaw = fromTextToSHA1 commitId ExitFailure _ -> do err chan "cannot determine HEAD commit" return Nothing ExitFailure _ -> do err chan "git failed" return Nothing else do err chan $ concat ["Wrong URL to a Git repo (note that one of the following protocols must be specified: ", validGitProtocolsAsText] return Nothing checkRepoUrl :: Text -> Bool checkRepoUrl url = case parsedURI of Just uri -> (uriScheme uri) `elem` (map (++":") validGitProtocols) Nothing -> False where parsedURI = parseURI $ T.unpack url getViewProgressR :: Int -> Handler TypedContent getViewProgressR jobId = do App {..} <- getYesod mchan <- liftIO $ atom $ do m <- readTVar jobs case IntMap.lookup jobId m of Nothing -> return Nothing Just chan -> fmap Just $ dupTChan chan case mchan of Nothing -> notFound Just chan -> respondSource typePlain $ do let loop = do mtext <- liftIO $ atom $ readTChan chan case mtext of Nothing -> return () Just text -> do sendChunkText text sendFlush loop loop runProgram :: Maybe FilePath -> FilePath -> [String] -> Channel -> Handler (ExitCode, Text) runProgram workingDir programPath args chan = do (_, Just hout, Just herr, pid) <- liftIO $ createProcess (proc programPath args){ std_out = CreatePipe, std_err = CreatePipe, cwd = workingDir} (code, out) <- gatherOutput pid hout herr chan _ <- liftIO $ waitForProcess pid return (code, out) processOutput :: Text -> ([Text], Text) processOutput = processOutput' . lines where processOutput' [] = ([], "") processOutput' out = (init out, last out) init [] = [] init [x] = [] init (x:xs) = (x:(init xs)) last [x] = x last (_:xs) = last xs gatherOutput :: ProcessHandle -> Handle -> Handle -> Channel -> Handler (ExitCode, Text) gatherOutput ph hout herr chan = work mempty mempty where work accout accerr = do -- Read any outstanding input. resterr <- takeABit herr accerr restout <- takeABit hout accout threadDelay 1000000 -- Check on the process. s <- liftIO $ getProcessExitCode ph -- Exit or loop. case s of Nothing -> work restout resterr Just ec -> do -- Get any last bit written between the read and the status -- check. _ <- takeFinalBit herr resterr all <- takeFinalBit hout restout return (ec, all) takeABit h acc = do bs <- liftIO $ BS.hGetNonBlocking hout (64 * 1024) let acc' = acc <> (decodeUtf8 bs) let (fullLines, rest) = processOutput acc' mapM_ (msg chan) fullLines return rest takeFinalBit h rest = do last <- liftIO $ BS.hGetContents h let all = rest <> (decodeUtf8 last) mapM_ (msg chan) $ lines all return all randomInt :: Handler Int randomInt = liftIO $ randomIO