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I am sending simple UDP packets to this Haskell server. For a source of packets I use a plain text file generated by "aspell -l en dump master". However, any list of over 120,000 messages should work. If I start the consumer and producer at the same time, I do not loose packets. However, I want to be able to simulate a very busy consumer. If I introduce a threadDelay for 20 seconds before starting the consumer, I get packet loss. This to me is counter intuitive because I am doing less with standard out and disk IO when I delay consuming. Can anyone explain why I am getting loss with the delayed version? How can I manage the socket and TChan work better to not get any loss (just higher memory usage) while my consumer is very busy?

import Control.Monad (forever)
import Control.Concurrent (forkIO, threadDelay)
import Control.Concurrent.STM (writeTChan, readTChan, atomically)
import Control.Concurrent.STM.TChan
import Network.Socket hiding (send, sendTo, recv, recvFrom)
import Network.Socket.ByteString
import Data.ByteString hiding(putStrLn, head)
import qualified Data.ByteString.Char8 as Char8 (putStrLn, putStr)
import System.IO

main :: IO ()
main = withSocketsDo $  do
    hSetBuffering stdout NoBuffering
    addrinfos <- getAddrInfo
                 (Just (defaultHints {addrFlags = [AI_PASSIVE]}))
                 Nothing (Just "2000")
    let serveraddr = head addrinfos
    sock <- socket (addrFamily serveraddr) Datagram defaultProtocol
    bindSocket sock (addrAddress serveraddr)
    chan <- newTChanIO
    forkIO(producer chan sock)
    -- Uncomment the threadDelay below to see lossy version
    -- threadDelay (1000000 * 20)
    forkIO(consumer chan)
    forever $ threadDelay (1000000 * 60)

producer :: TChan ByteString -> Socket -> IO ()
producer chan sock = forever $ do
    (msg) <- recv sock 256
    atomically $ writeTChan chan msg

consumer :: TChan ByteString -> IO ()
consumer chan = forever $ do
    msg <- atomically $ readTChan chan
    Char8.putStr msg
share|improve this question
2  
For what it's worth, neither of these are lossless here. I reliably get exactly 30013 lines of output, whether the threadDelay (1000000 * 20) is there or not, even though aspell -l en dump master prints 119773 lines. To help others reproduce, here's the commands I run: ghc -threaded -rtsopts -O2 test && ./test +RTS -N2 > test.out & sleep 1 && aspell -l en dump master | tee aspell.out | netcat -u localhost 2000. You can kill both jobs when test.out and aspell.out stop changing (usually <1s). –  Daniel Wagner May 30 '12 at 21:07
    
I get all aspell lines if I compile unthreaded, ghc server.hs and run ./server > output. If I compile -threaded, I always get loss. The threaded problem simply adds to my confusion about why I cannot work with this recv sock in a non blocking way. Thanks –  rrmckinley May 30 '12 at 21:12
1  
It also seems highly dependent on the buffer size: if I change recv sock 256 to recv sock 1024 I get no loss, whether or not the consumer is delayed. (In fact, in all my experiments, I haven't found any circumstance under which the delayed consumer had a different behavior from the immediate consumer.) –  Daniel Wagner May 30 '12 at 21:23
    
I think netcat is faster than the actual client I was using which was just a simple Java program that read from the apsell.out file. Your suggestion of netcat is helpful. I see the same improvement with the buffer size. I will continue to test with larger messages which is my goal. –  rrmckinley May 30 '12 at 21:34
    
I'm suspicious of netcat (nc on Mac OS X in my case). While waiting for the threadDelay and the consumer to start, the memory usage of the server process does not go up. It should go up as the channel receives all the writes. –  rrmckinley May 30 '12 at 21:38

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