module HsDev.Server.Commands (
commands,
serverOpts, serverDefCfg,
clientOpts, clientDefCfg,
clientCmd, sendCmd,
initLog, runServer,
processRequest, processClient,
withCache, writeCache, readCache
) where
import Control.Applicative
import Control.Arrow (second)
import Control.Concurrent
import Control.Exception
import Control.Monad
import Control.Monad.Error
import Data.Aeson hiding (Result, Error)
import Data.Aeson.Encode.Pretty
import Data.ByteString.Lazy.Char8 (ByteString)
import qualified Data.ByteString.Lazy.Char8 as L
import Data.Either (isLeft)
import qualified Data.Map as M
import Data.Maybe
import Data.Monoid
import Data.Traversable (traverse)
import Network.Socket hiding (connect)
import qualified Network.Socket as Net
import System.Directory
import System.Exit
import System.IO
import Text.Read (readMaybe)
import Control.Apply.Util
import Control.Concurrent.Util
import qualified Control.Concurrent.FiniteChan as F
import Data.Lisp
import System.Console.Cmd hiding (run)
import qualified HsDev.Cache.Structured as SC
import qualified HsDev.Client.Commands as Client
import HsDev.Database
import qualified HsDev.Database.Async as DB
import HsDev.Tools.Ghc.Worker
import HsDev.Tools.GhcMod (ghcModMultiWorker)
import HsDev.Server.Message as M
import HsDev.Server.Types
import HsDev.Util
#if mingw32_HOST_OS
import Data.Aeson.Types hiding (Result, Error)
import Data.Char
import Data.List
import System.Environment
import System.Process
import System.Win32.FileMapping.Memory (withMapFile, readMapFile)
import System.Win32.FileMapping.NamePool
import System.Win32.PowerShell (translateArg)
#else
import System.Posix.Process
import System.Posix.IO
#endif
commands :: [Cmd (IO ())]
commands = [
cmd' "start" server' "start remote server" start',
cmd' "run" server' "run server" run',
cmd' "stop" client' "stop remote server" stop',
cmd' "connect" client' "connect to send commands directly" connect']
where
cmd' :: String -> ([Opt], Opts String) -> String -> (Args -> IO ()) -> Cmd (IO ())
cmd' nm (opts', defOpts') desc' act' =
cmd nm [] opts' desc' act' `with` [defaultOpts defOpts']
server' = (serverOpts, serverDefCfg)
client' = (clientOpts, clientDefCfg)
start' :: Args -> IO ()
start' (Args _ sopts) = do
#if mingw32_HOST_OS
let
args = ["run"] ++ toArgs (Args [] sopts)
myExe <- getExecutablePath
r <- readProcess "powershell" [
"-Command",
unwords [
"&", "{", "start-process",
translateArg myExe,
intercalate ", " (map translateArg args),
"-WindowStyle Hidden",
"}"]] ""
if all isSpace r
then putStrLn $ "Server started at port " ++ (fromJust $ arg "port" sopts)
else putStrLn $ "Failed to start server: " ++ r
#else
let
forkError :: SomeException -> IO ()
forkError e = putStrLn $ "Failed to start server: " ++ show e
proxy :: IO ()
proxy = do
_ <- createSession
_ <- forkProcess serverAction
exitImmediately ExitSuccess
serverAction :: IO ()
serverAction = do
mapM_ closeFd [stdInput, stdOutput, stdError]
nullFd <- openFd "/dev/null" ReadWrite Nothing defaultFileFlags
mapM_ (dupTo nullFd) [stdInput, stdOutput, stdError]
closeFd nullFd
run' (Args [] sopts)
handle forkError $ do
_ <- forkProcess proxy
putStrLn $ "Server started at port " ++ fromJust (arg "port" sopts)
#endif
run' :: Args -> IO ()
run' (Args _ sopts)
| flagSet "as-client" sopts = runServer sopts $ \copts -> do
commandLog copts $ "Server started as client connecting at port " ++ fromJust (arg "port" sopts)
me <- myThreadId
s <- socket AF_INET Stream defaultProtocol
addr' <- inet_addr "127.0.0.1"
Net.connect s $ SockAddrInet (fromIntegral $ fromJust $ iarg "port" sopts) addr'
bracket (socketToHandle s ReadWriteMode) hClose $ \h ->
processClientHandle s h (copts {
commandExit = killThread me })
| otherwise = runServer sopts $ \copts -> do
commandLog copts $ "Server started at port " ++ fromJust (arg "port" sopts)
waitListen <- newEmptyMVar
clientChan <- F.newChan
void $ forkIO $ do
accepter <- myThreadId
let
serverStop :: IO ()
serverStop = void $ forkIO $ do
void $ tryPutMVar waitListen ()
killThread accepter
s <- socket AF_INET Stream defaultProtocol
bind s $ SockAddrInet (fromIntegral $ fromJust $ iarg "port" sopts) iNADDR_ANY
listen s maxListenQueue
forever $ logIO "accept client exception: " (commandLog copts) $ do
s' <- fst <$> accept s
void $ forkIO $ logIO (show s' ++ " exception: ") (commandLog copts) $
bracket (socketToHandle s' ReadWriteMode) hClose $ \h ->
bracket newEmptyMVar (`putMVar` ()) $ \done -> do
me <- myThreadId
let
timeoutWait = do
notDone <- isEmptyMVar done
when notDone $ do
void $ forkIO $ do
threadDelay 1000000
void $ tryPutMVar done ()
killThread me
takeMVar done
waitForever = forever $ hGetLineBS h
F.putChan clientChan timeoutWait
processClientHandle s' h (copts {
commandHold = waitForever,
commandExit = serverStop })
takeMVar waitListen
DB.readAsync (commandDatabase copts) >>= writeCache sopts (commandLog copts)
F.stopChan clientChan >>= sequence_
commandLog copts "server stopped"
stop' :: Args -> IO ()
stop' (Args _ copts) = runArgs (map clientCmd Client.commands) onDef onError (Args ["exit"] copts) where
onDef = putStrLn "Command 'exit' not found"
onError es = putStrLn $ "Failed to stop server: " ++ es
connect' :: Args -> IO ()
connect' (Args _ copts) = do
curDir <- getCurrentDirectory
s <- socket AF_INET Stream defaultProtocol
addr' <- inet_addr "127.0.0.1"
Net.connect s (SockAddrInet (fromIntegral $ fromJust $ iarg "port" copts) addr')
bracket (socketToHandle s ReadWriteMode) hClose $ \h -> forM_ [(1 :: Integer)..] $ \i -> ignoreIO $ do
input' <- hGetLineBS stdin
case decodeLispOrJSON input' of
Left _ -> L.putStrLn $ encodeValue False $ object ["error" .= ("invalid command" :: String)]
Right (isLisp, req') -> do
L.hPutStrLn h $ encodeLispOrJSON isLisp $ Message (Just $ show i) $
req' `M.withOpts` ["current-directory" %-- curDir]
waitResp h
where
pretty = flagSet "pretty" copts
encodeValue :: ToJSON a => Bool -> a -> L.ByteString
encodeValue True = encodeLisp
encodeValue False
| pretty = encodePretty
| otherwise = encode
waitResp h = do
resp <- hGetLineBS h
parseResp h resp
parseResp h str = case decodeLispOrJSON str of
Left e -> putStrLn $ "Can't decode response: " ++ e
Right (isLisp, Message i r) -> do
r' <- unMmap r
putStrLn $ fromMaybe "_" i ++ ":" ++ fromUtf8 (encodeValue isLisp r')
case r of
Left _ -> waitResp h
_ -> return ()
serverOpts :: [Opt]
serverOpts = [
req "port" "number" `desc` "listen port",
req "timeout" "msec" `desc` "query timeout",
req "log" "file" `short` ['l'] `desc` "log file",
req "cache" "path" `desc` "cache directory",
flag "load" `desc` "force load all data from cache on startup"]
clientOpts :: [Opt]
clientOpts = [
req "port" "number" `desc` "connection port",
flag "pretty" `desc` "pretty json output",
req "stdin" "data" `desc` "pass data to stdin",
req "timeout" "msec" `desc` "overwrite timeout duration",
flag "silent" `desc` "supress notifications"]
serverDefCfg :: Opts String
serverDefCfg = mconcat [
"port" %-- (4567 :: Int),
"timeout" %-- (1000 :: Int)]
clientDefCfg :: Opts String
clientDefCfg = mconcat ["port" %-- (4567 :: Int)]
clientCmd :: Cmd CommandAction -> Cmd (IO ())
clientCmd c = cmd (cmdName c) (cmdArgs c) (cmdOpts c ++ clientOpts) (cmdDesc c) (sendCmd (cmdName c))
`with` [defaultOpts clientDefCfg]
sendCmd :: String -> Args -> IO ()
sendCmd name (Args args opts) = do
var <- newEmptyMVar
thId <- forkIO $ ignoreIO sendReceive >> putMVar var ()
handle (\(SomeException _) -> killThread thId) $ takeMVar var
where
(copts, opts') = splitOpts clientOpts opts
reqCall = Request name args opts'
pretty = flagSet "pretty" copts
encodeValue :: ToJSON a => a -> L.ByteString
encodeValue
| pretty = encodePretty
| otherwise = encode
sendReceive = do
curDir <- getCurrentDirectory
stdinData <- if flagSet "data" copts
then do
cdata <- liftM (eitherDecode :: L.ByteString -> Either String Value) L.getContents
case cdata of
Left cdataErr -> do
putStrLn $ "Invalid data: " ++ cdataErr
exitFailure
Right dataValue -> return $ Just dataValue
else return Nothing
s <- socket AF_INET Stream defaultProtocol
addr' <- inet_addr "127.0.0.1"
Net.connect s (SockAddrInet (fromIntegral $ fromJust $ iarg "port" copts) addr')
h <- socketToHandle s ReadWriteMode
L.hPutStrLn h $ encode $ Message Nothing $ reqCall `M.withOpts` [
"current-directory" %-- curDir,
"data" %-? (fromUtf8 . encode <$> stdinData),
"timeout" %-? (iarg "timeout" copts :: Maybe Integer),
if flagSet "silent" copts then hoist "silent" else mempty]
hFlush h
peekResponse h
peekResponse h = do
resp <- hGetLineBS h
parseResponse h resp
parseResponse h str = case decodeLispOrJSON str of
Left e -> putStrLn $ "Can't decode response: " ++ e
Right (_, Message _ r) -> do
r' <- unMmap r
L.putStrLn $ case r' of
Left n -> encodeValue n
Right (Result v) -> encodeValue v
Right e -> encodeValue e
when (isLeft r') $ peekResponse h
initLog :: Opts String -> IO (String -> IO (), ([String] -> IO ()) -> IO (), IO ())
initLog sopts = do
msgs <- F.newChan
outputDone <- newEmptyMVar
void $ forkIO $ finally
(F.readChan msgs >>= mapM_ (logMsg sopts))
(putMVar outputDone ())
let
listenLog f = logException "listen log" (F.putChan msgs) $ do
msgs' <- F.dupChan msgs
F.readChan msgs' >>= f
return (F.putChan msgs, listenLog, F.closeChan msgs >> takeMVar outputDone)
runServer :: Opts String -> (CommandOptions -> IO ()) -> IO ()
runServer sopts act = bracket (initLog sopts) (\(_, _, x) -> x) $ \(outputStr, listenLog, waitOutput) -> do
db <- DB.newAsync
when (flagSet "load" sopts) $ withCache sopts () $ \cdir -> do
outputStr $ "Loading cache from " ++ cdir
dbCache <- liftA merge <$> SC.load cdir
case dbCache of
Left err -> outputStr $ "Failed to load cache: " ++ err
Right dbCache' -> DB.update db (return dbCache')
#if mingw32_HOST_OS
mmapPool <- Just <$> createPool "hsdev"
#endif
ghcw <- ghcWorker
ghcmodw <- ghcModMultiWorker
act $ CommandOptions
db
(writeCache sopts outputStr)
(readCache sopts outputStr)
"."
outputStr
listenLog
waitOutput
#if mingw32_HOST_OS
mmapPool
#endif
ghcw
ghcmodw
(const $ return ())
(return ())
(return ())
(return ())
decodeLispOrJSON :: FromJSON a => ByteString -> Either String (Bool, a)
decodeLispOrJSON str =
((,) <$> pure False <*> eitherDecode str) <|>
((,) <$> pure True <*> decodeLisp str)
encodeLispOrJSON :: ToJSON a => Bool -> a -> ByteString
encodeLispOrJSON True = encodeLisp
encodeLispOrJSON False = encode
processRequest :: CommandOptions -> (Notification -> IO ()) -> Request -> IO Result
processRequest copts onNotify req' =
runArgs
Client.commands
unknownCommand
requestError
(requestToArgs req')
(copts { commandNotify = onNotify })
where
unknownCommand :: CommandAction
unknownCommand _ = return $ Error "Unknown command" M.empty
requestError :: String -> CommandAction
requestError errs _ = return $ Error "Command syntax error" $ M.fromList [
("what", toJSON $ lines errs)]
processClient :: String -> IO ByteString -> (ByteString -> IO ()) -> CommandOptions -> IO ()
processClient name receive send' copts = do
commandLog copts $ name ++ " connected"
respChan <- newChan
void $ forkIO $ do
responses <- getChanContents respChan
mapM_ (send' . uncurry encodeLispOrJSON) responses
linkVar <- newMVar $ return ()
let
answer :: Bool -> Message Response -> IO ()
answer isLisp m@(Message i r) = do
when (not $ isNotification r) $
commandLog copts $ name ++ " << " ++ fromMaybe "_" i ++ ":" ++ fromUtf8 (encode r)
writeChan respChan (isLisp, m)
flip finally (disconnected linkVar) $ forever $ do
req' <- receive
case second (fmap extractMeta) <$> decodeLispOrJSON req' of
Left _ -> do
commandLog copts $ name ++ " >> #: " ++ fromUtf8 req'
answer False $ Message Nothing $ responseError "Invalid request" [
"request" .= fromUtf8 req']
Right (isLisp, m) -> do
resp' <- flip traverse m $ \(cdir, noFile, silent, tm, reqArgs) -> do
let
onNotify n
| silent = return ()
| otherwise = traverse (const $ mmap' noFile (Left n)) m >>= answer isLisp
commandLog copts $ name ++ " >> " ++ fromMaybe "_" (messageId m) ++ ":" ++ fromUtf8 (encode reqArgs)
resp <- fmap Right $ handleTimeout tm $ handleError $
processRequest
(copts {
commandRoot = cdir,
commandLink = void (swapMVar linkVar $ commandExit copts) })
onNotify
reqArgs
mmap' noFile resp
answer isLisp resp'
where
extractMeta :: Request -> (FilePath, Bool, Bool, Maybe Int, Request)
extractMeta c = (cdir, noFile, silent, tm, c { requestOpts = opts' }) where
cdir = fromMaybe (commandRoot copts) $ arg "current-directory" metaOpts
noFile = flagSet "no-file" metaOpts
silent = flagSet "silent" metaOpts
tm = join $ fmap readMaybe $ arg "timeout" metaOpts
(metaOpts, opts') = splitOpts [
req "current-directory" "path",
flag "no-file",
flag "silent",
req "timeout" "ms"]
(requestOpts c)
handleTimeout :: Maybe Int -> IO Result -> IO Result
handleTimeout Nothing = id
handleTimeout (Just tm) = fmap (fromMaybe $ Error "Timeout" M.empty) . timeout tm
handleError :: IO Result -> IO Result
handleError = handle onErr where
onErr :: SomeException -> IO Result
onErr e = return $ Error "Exception" $ M.fromList [("what", toJSON $ show e)]
mmap' :: Bool -> Response -> IO Response
#if mingw32_HOST_OS
mmap' False
| Just pool <- commandMmapPool copts = mmap pool
#endif
mmap' _ = return
disconnected :: MVar (IO ()) -> IO ()
disconnected var = do
commandLog copts $ name ++ " disconnected"
join $ takeMVar var
processClientHandle :: Show a => a -> Handle -> CommandOptions -> IO ()
processClientHandle n h = processClient (show n) (hGetLineBS h) (\s -> L.hPutStrLn h s >> hFlush h)
withCache :: Opts String -> a -> (FilePath -> IO a) -> IO a
withCache sopts v onCache = case arg "cache" sopts of
Nothing -> return v
Just cdir -> onCache cdir
writeCache :: Opts String -> (String -> IO ()) -> Database -> IO ()
writeCache sopts logMsg' d = withCache sopts () $ \cdir -> do
logMsg' $ "writing cache to " ++ cdir
logIO "cache writing exception: " logMsg' $ do
SC.dump cdir $ structurize d
logMsg' $ "cache saved to " ++ cdir
readCache :: Opts String -> (String -> IO ()) -> (FilePath -> ErrorT String IO Structured) -> IO (Maybe Database)
readCache sopts logMsg' act = withCache sopts Nothing $ join . liftM (either cacheErr cacheOk) . runErrorT . act where
cacheErr e = logMsg' ("Error reading cache: " ++ e) >> return Nothing
cacheOk s = do
forM_ (M.keys (structuredCabals s)) $ \c -> logMsg' ("cache read: cabal " ++ show c)
forM_ (M.keys (structuredProjects s)) $ \p -> logMsg' ("cache read: project " ++ p)
case allModules (structuredFiles s) of
[] -> return ()
ms -> logMsg' $ "cache read: " ++ show (length ms) ++ " files"
return $ Just $ merge s
#if mingw32_HOST_OS
data MmapFile = MmapFile String
instance ToJSON MmapFile where
toJSON (MmapFile f) = object ["file" .= f]
instance FromJSON MmapFile where
parseJSON = withObject "file" $ \v -> MmapFile <$> v .:: "file"
mmap :: Pool -> Response -> IO Response
mmap mmapPool r
| L.length msg <= 1024 = return r
| otherwise = withSync (responseError "timeout" []) $ \sync -> timeout 10000000 $
withName mmapPool $ \mmapName -> do
runErrorT $ flip catchError
(\e -> liftIO $ sync $ responseError e [])
(withMapFile mmapName (L.toStrict msg) $ liftIO $ do
sync $ result $ MmapFile mmapName
threadDelay 10000000)
where
msg = encode r
#endif
unMmap :: Response -> IO Response
#if mingw32_HOST_OS
unMmap (Right (Result v))
| Just (MmapFile f) <- parseMaybe parseJSON v = do
cts <- runErrorT (fmap L.fromStrict (readMapFile f))
case cts of
Left _ -> return $ responseError "Unable to read map view of file" ["file" .= f]
Right r' -> case eitherDecode r' of
Left e' -> return $ responseError "Invalid response" ["response" .= fromUtf8 r', "parser error" .= e']
Right r'' -> return r''
#endif
unMmap r = return r
logMsg :: Opts String -> String -> IO ()
logMsg sopts s = ignoreIO $ do
putStrLn s
case arg "log" sopts of
Nothing -> return ()
Just f -> withFile f AppendMode (`hPutStrLn` s)