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I am programming some 'openvpn-like' thing and thought it would be a good candidate to improve my Haskell knowledge. However, I ran into quite severe performance problems.

What it does: It opens a TUN device; it binds itself on an UDP port, starts 2 threads (forkIO, however compiled with -threaded because of the fdRead). I have not used the tuntap package and did it myself completely in Haskell.

thread 1: read a packet (fdRead) from a tun device. Send it using UDP socket.
thread 2: read a packet (recv) from an UDP socket; send it to tun device (fdWrite)

Problem 1: In this configuration fdRead returns String and I have used the Network.Socket functions that accept String. I made a configuration on local system (some iptables magic) and I can run 15MB/s through it on localhost, the program run basically on 100% CPU. That's slow. Is there anything I could do to improve the performance?

Problem 2: I will have to prepend something to the packets I am sending; however the sendMany network function takes only ByteString; reading from Fd returns String. Conversion is pretty slow. Converting to Handle doesn't seem to work well enough with the TUN device....

Problem 3: I wanted to store some information in Data.Heap (functional heap) (I need to use the 'takeMin' and although for 3 items it is overkill, it is easy to do :) ). So I created an MVar and on each received packet I've pulled the Heap from the MVar, updated the Heap with new info and put it back inito the MVar Now the thing simply starts to eat A LOT of memory. Probably because the old heaps don't get garbage collected soon/frequently enough..?

Is there a way to solve these problems or do I have to get back to C...? What I am doing should be mostly zerocopy operation - am I using wrong libraries to achieve it?


What I did: - when putting to MVar, did:

a `seq` putMVar mvar a

That perfectly helped with the memory leak.

  • changed to ByteString; now I get 42MB/s when using just 'read/write' with no further processing. The C version does about 56MB/s so this is acceptable.
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Mind if I ask you why you didn't use the tuntap package? (I'm the maintainer... so I'm curious.) –  John Nov 19 '10 at 20:18
I was thinking about using the 'TUN' part and thought I would leverage the "Handle" part of Haskell; that didn't turn up to be the way. It seems to me that I will probably end up using it and use the TAP way (not that there is much difference) - as it returns the ByteString which would probably speed things up. –  ondra Nov 19 '10 at 20:31
I will add a comment to the tuntap package; being able to set IP/netmask using standard SockAddr (instead of Word32) would be very welcome :) –  ondra Nov 20 '10 at 7:12
yipe! i just saw that concurrent-strict evaluates things to normal form (i.e. deepseqs) rather than to "head normal form" (i.e., seqs) as the documentation claims. Moving back to lazy mvars and just forcing evaluation with seq yourself might be a big win. Data.Heap is supposed to be kept lazy for the right amortized performance. –  sclv Nov 20 '10 at 20:37
I found that too, though I first did that through 'incorrectly' typing the rnf deepseq instance. Using the lazy mvars with seq is definitely cleaner. –  ondra Nov 21 '10 at 9:11

3 Answers 3

up vote 18 down vote accepted

String is slow. Really, really, really slow. It's a singly-linked list of cons cells containing one unicode character each. Writing one to a socket requires converting each character to bytes, copying those bytes into an array, and handing that array to the system call. What part of this sounds like what you want to be doing? :)

You want to be using ByteString exclusively. The ByteString IO functions actually use zero-copy IO where possible. Especially look at the network-bytestring package on hackage. It contains versions of all the network libraries that are optimized to work efficiently with ByteString.

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and note that if you upgrade to the latest network package, network-bytestring has now been folded into it! –  sclv Nov 19 '10 at 21:13
I wasn't aware of that either. Thanks for the heads-up. –  Carl Nov 19 '10 at 22:11
I am using network.bytestring; now I have even converted my 'tun' call into ByteString. Now I've got 32MB/s which seems to me still pretty bad. I will try the tuntap package but I don't think that would fix that... –  ondra Nov 20 '10 at 7:13
In C code I get maximum 56MB/s. In haskell I get 42; that probably could be tweaked by using the 'buf' functions and some inplace magic, however that's probably an acceptable difference. –  ondra Nov 20 '10 at 10:39

Carl is right with regards to your first two questions. About your last one, consider using the strict concurrency package: http://hackage.haskell.org/package/strict-concurrency-

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Ooh, I missed that question entirely. I kind of think this package is overkill, but the underlying problem is that the structure isn't being forced when the heap is modified, and this package will certainly fix it. –  Carl Nov 19 '10 at 22:11

Below are two example programs: client and server. Using GHC 7.0.1 and network-2.3 I got more then 7500 Mbps over loopback, on my pretty new dual core laptop (~90% total CPU usage). I don't know how much overhead UDP introduces, but nevertheless this is quite a number.

-- Client program --
module Main where

import qualified Data.ByteString as C
import Network.Socket hiding (recv)
import Network.Socket.ByteString (recv)

import System.IO
import Control.Monad

main :: IO ()
main = withSocketsDo $
    do devNull <- openFile "/dev/null" WriteMode
       addrinfos <- getAddrInfo Nothing (Just "localhost") (Just "3000")
       let serveraddr = head addrinfos
       sock <- socket (addrFamily serveraddr) Stream defaultProtocol
       connect sock (addrAddress serveraddr)
       forever $ do
         msg <- recv sock (256 * 1024) -- tuning recv size is important!
         C.hPutStr devNull msg
       sClose sock

-- Server program --
module Main where

-- import Control.Monad (unless)
import Network.Socket hiding (recv)
import qualified Data.ByteString.Lazy as S
import Network.Socket.ByteString.Lazy (

main :: IO ()
main = withSocketsDo $
       do addrinfos <- getAddrInfo
                        (Just (defaultHints {addrFlags = [AI_PASSIVE]}))
                        Nothing (Just "3000")
          let serveraddr = head addrinfos
          sock <- socket (addrFamily serveraddr) Stream defaultProtocol
          bindSocket sock (addrAddress serveraddr)
          listen sock 1
          (conn, _) <- accept sock
          talk conn
          sClose conn
          sClose sock

       talk :: Socket -> IO ()
       talk conn = sendAll conn $ S.repeat 7
share|improve this answer
I cannot tune the recv size; I am using UDP to transport IP packets, so the recv size is pretty much fixed to ~ 1500. –  ondra Nov 20 '10 at 8:18

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