- Less crossclass dependancies
- Eliminate one more reason for different ammo schemes
{-# LANGUAGE CPP, ScopedTypeVariables #-}
module Main where
import Network
import IO
import System.IO
import Control.Concurrent
import Control.Concurrent.STM
import Control.Exception (handle, finally, Exception, IOException)
import Control.Monad
import Maybe (fromMaybe, isJust, fromJust)
import Data.List
import Miscutils
import HWProto
import Opts
import Data.Time
#if !defined(mingw32_HOST_OS)
import System.Posix
#endif
-- #define IOException Exception
data Messages =
Accept ClientInfo
| ClientMessage ([String], ClientInfo)
| CoreMessage [String]
| TimerTick
messagesLoop :: TChan [String] -> IO()
messagesLoop messagesChan = forever $ do
threadDelay (25 * 10^6) -- 25 seconds
atomically $ writeTChan messagesChan ["PING"]
timerLoop :: TChan [String] -> IO()
timerLoop messagesChan = forever $ do
threadDelay (60 * 10^6) -- 60 seconds
atomically $ writeTChan messagesChan ["MINUTELY"]
acceptLoop :: Socket -> TChan ClientInfo -> IO ()
acceptLoop servSock acceptChan =
Control.Exception.handle (\(_ :: IOException) -> putStrLn "exception on connect" >> acceptLoop servSock acceptChan) $
do
(cHandle, host, _) <- accept servSock
currentTime <- getCurrentTime
putStrLn $ (show currentTime) ++ " new client: " ++ host
cChan <- atomically newTChan
sendChan <- atomically newTChan
forkIO $ clientRecvLoop cHandle cChan
forkIO $ clientSendLoop cHandle cChan sendChan
atomically $ writeTChan acceptChan (ClientInfo cChan sendChan cHandle host currentTime "" 0 "" False False False)
atomically $ writeTChan cChan ["ASKME"]
acceptLoop servSock acceptChan
listenLoop :: Handle -> [String] -> TChan [String] -> IO ()
listenLoop handle buf chan = do
str <- hGetLine handle
if str == "" then do
atomically $ writeTChan chan buf
listenLoop handle [] chan
else
listenLoop handle (buf ++ [str]) chan
clientRecvLoop :: Handle -> TChan [String] -> IO ()
clientRecvLoop handle chan =
listenLoop handle [] chan
`catch` (\e -> (clientOff $ show e) >> return ())
where clientOff msg = atomically $ writeTChan chan ["QUIT", msg] -- if the client disconnects, we perform as if it sent QUIT message
clientSendLoop :: Handle -> TChan[String] -> TChan[String] -> IO()
clientSendLoop handle clChan chan = do
answer <- atomically $ readTChan chan
doClose <- Control.Exception.handle
(\(e :: IOException) -> if isQuit answer then return True else sendQuit e >> return False) $ do
forM_ answer (\str -> hPutStrLn handle str)
hPutStrLn handle ""
hFlush handle
return $ isQuit answer
if doClose then
Control.Exception.handle (\(_ :: IOException) -> putStrLn "error on hClose") $ hClose handle
else
clientSendLoop handle clChan chan
where
sendQuit e = atomically $ writeTChan clChan ["QUIT", show e]
isQuit answer = head answer == "BYE"
sendAnswers [] _ clients _ = return clients
sendAnswers ((handlesFunc, answer):answers) client clients rooms = do
let recipients = handlesFunc client clients rooms
--unless (null recipients) $ putStrLn ("< " ++ (show answer))
when (head answer == "NICK") $ putStrLn (show answer)
clHandles' <- forM recipients $
\ch ->
do
atomically $ writeTChan (sendChan ch) answer
if head answer == "BYE" then return [ch] else return []
let outHandles = concat clHandles'
unless (null outHandles) $ putStrLn ((show $ length outHandles) ++ " / " ++ (show $ length clients) ++ " : " ++ (show answer))
let mclients = deleteFirstsBy (==) clients outHandles
sendAnswers answers client mclients rooms
reactCmd :: ServerInfo -> [String] -> ClientInfo -> [ClientInfo] -> [RoomInfo] -> IO ([ClientInfo], [RoomInfo])
reactCmd serverInfo cmd client clients rooms = do
--putStrLn ("> " ++ show cmd)
let (clientsFunc, roomsFunc, answerFuncs) = handleCmd client clients rooms $ cmd
let mrooms = roomsFunc rooms
let mclients = (clientsFunc clients)
let mclient = fromMaybe client $ find (== client) mclients
let answers = map (\x -> x serverInfo) answerFuncs
clientsIn <- sendAnswers answers mclient mclients mrooms
mapM_ (\cl -> atomically $ writeTChan (chan cl) ["QUIT", "Kicked"]) $ filter forceQuit $ clientsIn
return (clientsIn, mrooms)
mainLoop :: ServerInfo -> TChan ClientInfo -> TChan [String] -> [ClientInfo] -> [RoomInfo] -> IO ()
mainLoop serverInfo acceptChan messagesChan clients rooms = do
r <- atomically $
(Accept `fmap` readTChan acceptChan) `orElse`
(ClientMessage `fmap` tselect clients) `orElse`
(CoreMessage `fmap` readTChan messagesChan)
case r of
Accept ci -> do
let sameHostClients = filter (\cl -> host ci == host cl) clients
let haveJustConnected = not $ null $ filter (\cl -> connectTime ci `diffUTCTime` connectTime cl <= 25) sameHostClients
when haveJustConnected $ do
atomically $ do
writeTChan (chan ci) ["QUIT", "Reconnected too fast"]
currentTime <- getCurrentTime
let newServerInfo = serverInfo{
loginsNumber = loginsNumber serverInfo + 1,
lastHourUsers = currentTime : lastHourUsers serverInfo
}
mainLoop newServerInfo acceptChan messagesChan (clients ++ [ci]) rooms
ClientMessage (cmd, client) -> do
(clientsIn, mrooms) <- reactCmd serverInfo cmd client clients rooms
let hadRooms = (not $ null rooms) && (null mrooms)
in unless ((not $ isDedicated serverInfo) && ((null clientsIn) || hadRooms)) $
mainLoop serverInfo acceptChan messagesChan clientsIn mrooms
CoreMessage msg -> case msg of
["PING"] ->
if not $ null $ clients then
do
let client = head clients -- don't care
(clientsIn, mrooms) <- reactCmd serverInfo msg client clients rooms
mainLoop serverInfo acceptChan messagesChan clientsIn mrooms
else
mainLoop serverInfo acceptChan messagesChan clients rooms
["MINUTELY"] -> do
currentTime <- getCurrentTime
let newServerInfo = serverInfo{
lastHourUsers = filter (\t -> currentTime `diffUTCTime` t < 3600) $ lastHourUsers serverInfo
}
mainLoop newServerInfo acceptChan messagesChan clients rooms
startServer :: ServerInfo -> Socket -> IO()
startServer serverInfo serverSocket = do
acceptChan <- atomically newTChan
forkIO $ acceptLoop serverSocket acceptChan
messagesChan <- atomically newTChan
forkIO $ messagesLoop messagesChan
forkIO $ timerLoop messagesChan
mainLoop serverInfo acceptChan messagesChan [] []
main = withSocketsDo $ do
#if !defined(mingw32_HOST_OS)
installHandler sigPIPE Ignore Nothing;
#endif
serverInfo <- getOpts $ newServerInfo
putStrLn $ "Listening on port " ++ show (listenPort serverInfo)
serverSocket <- listenOn $ PortNumber (listenPort serverInfo)
startServer serverInfo serverSocket `finally` sClose serverSocket