It seems that at the current state it is necessary to protect sending stats/ending game from multiple execution,
as that can happen if you e.g. fail a mission more than once in the same tick (e.g. destroying two essential crates at the same time)
Otherwise you can get a blank / stuck frontend (e.g. when using deagle to shoot the two last crates at the same time)!
the best approach might be to never call the function that sends stats and ends game from any event handler directly, but instead have a flag 'isFailed' that is set to true when any of the possible fails happen and to check that flag every tick to send stats and end game if true
{-# LANGUAGE ScopedTypeVariables, OverloadedStrings, Rank2Types #-}
module ClientIO where
import qualified Control.Exception as Exception
import Control.Monad.State
import Control.Concurrent.Chan
import Control.Concurrent
import Network
import Network.Socket.ByteString
import qualified Data.ByteString.Char8 as B
----------------
import CoreTypes
import RoomsAndClients
pDelim :: B.ByteString
pDelim = "\n\n"
bs2Packets :: B.ByteString -> ([[B.ByteString]], B.ByteString)
bs2Packets = runState takePacks
takePacks :: State B.ByteString [[B.ByteString]]
takePacks
= do modify (until (not . B.isPrefixOf pDelim) (B.drop 2))
packet <- state $ B.breakSubstring pDelim
buf <- get
if B.null buf then put packet >> return [] else
if B.null packet then return [] else
do packets <- takePacks
return (B.splitWith (== '\n') packet : packets)
listenLoop :: Socket -> Chan CoreMessage -> ClientIndex -> IO ()
listenLoop sock chan ci = receiveWithBufferLoop B.empty
where
receiveWithBufferLoop recvBuf = do
recvBS <- recv sock 4096
unless (B.null recvBS) $ do
let (packets, newrecvBuf) = bs2Packets $ B.append recvBuf recvBS
forM_ packets sendPacket
receiveWithBufferLoop $ B.copy newrecvBuf
sendPacket packet = writeChan chan $ ClientMessage (ci, packet)
clientRecvLoop :: Socket -> Chan CoreMessage -> Chan [B.ByteString] -> ClientIndex -> (forall a. IO a -> IO a) -> IO ()
clientRecvLoop s chan clChan ci restore =
(myThreadId >>=
(\t -> (restore $ forkIO (clientSendLoop s t clChan ci) >>
listenLoop s chan ci >> return "Connection closed")
`Exception.catch` (\(e :: ShutdownThreadException) -> return . B.pack . show $ e)
`Exception.catch` (\(e :: Exception.IOException) -> return . B.pack . show $ e)
`Exception.catch` (\(e :: Exception.SomeException) -> return . B.pack . show $ e)
)
>>= clientOff) `Exception.finally` remove
where
clientOff msg = writeChan chan $ ClientMessage (ci, ["QUIT", msg])
remove = do
clientOff "Client is in some weird state"
writeChan chan $ Remove ci
clientSendLoop :: Socket -> ThreadId -> Chan [B.ByteString] -> ClientIndex -> IO ()
clientSendLoop s tId chan ci = do
answer <- readChan chan
when (isQuit answer) $
killReciever . B.unpack $ quitMessage answer
Exception.handle
(\(e :: Exception.SomeException) -> unless (isQuit answer) . killReciever $ show e) $
sendAll s $ B.unlines answer `B.snoc` '\n'
if isQuit answer then
sClose s
else
clientSendLoop s tId chan ci
where
killReciever = Exception.throwTo tId . ShutdownThreadException
quitMessage ["BYE"] = "bye"
quitMessage ("BYE":msg:_) = msg
quitMessage _ = error "quitMessage"
isQuit ("BYE":_) = True
isQuit _ = False