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Netty Server streams to a Netty client (point to point, 1 to 1):


  • case: Server and Client are both 12 cores, 1Gbit NIC => going at the steady rate of 300K 200 byte messages per second

Not So Good

  • case: Server and Client are both 32 cores, 10Gbit NIC => (same code) starting at 130K/s degrading down to hundreds per second within minutes


  • Netperf shows that the "bad" environment is actually quite excellent ( can stream 600MB/s steady for a half an hour ).

  • It does not seem to be a client issue, since if I swap the client to a known good client (wrote it in C) that sets a max OS's SO_RCVBUF and does nothing but reads byte[]s and ignores them => the behavior is still the same.

  • Performance degradation starts before a high write watermark ( 200MB, but tried others ) is reached

  • Heap feels up quickly, and of course once reaches the max, GC kicks in locking the world, but that happens way after the "bad" symptoms surface. On a "good" environment heap stays steady somewhere at 1Gb, where it logically, given the configs, should be.

  • One thing that I noticed: most of the 32 cores are utilized while Netty Server streams, which I tried to limit by setting all the Boss/NioWorker threads to 1 (although there is a single channel anyway, but just in case):

val bootstrap = new ServerBootstrap(
  new NioServerSocketChannelFactory (
    Executors.newFixedThreadPool( 1 ),
    Executors.newFixedThreadPool( 1 ), 1 ) )

// 1 thread max, memory limitation: 1GB by channel, 2GB global, 100ms of timeout for an inactive thread
val pipelineExecutor = new OrderedMemoryAwareThreadPoolExecutor(
                1, 1 *1024 *1024 *1024, 2 *1024 *1024 *1024, 100, TimeUnit.MILLISECONDS,
  Executors.defaultThreadFactory() )

  new ChannelPipelineFactory {
    def getPipeline = {
      val pipeline = Channels.pipeline( serverHandlers.toArray : _* )
      pipeline.addFirst( "pipelineExecutor", new ExecutionHandler( pipelineExecutor ) )
} )

But that does not limit the number of cores used => still most of the cores are utilized. I understand that Netty tries to round robin worker tasks, but have a suspicion that 32 cores "at once" may be just too much for the NIC to handle.


  1. Suggestions on the degrading performance?
  2. How do I limit the number of cores used by Netty (without of course going the OIO route)?

side notes: would've loved to discuss it on Netty's mailing list, but it is closed. tried Netty's IRC, but it is dead

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would like to see someone authoritative answer this one...:) The netty google group is not dead, even though it just shows the github updates for the past month. I see trustin etc posting to it.!forum/netty – Abe Mar 30 '12 at 3:02
@tolitius what are the bootstrap options set for client/server pipelines? – Jestan Nirojan Mar 30 '12 at 4:41
Pinning the java process to few cores and optimise the tcp stack for 10G NEC will help a bit? – Jestan Nirojan Mar 30 '12 at 5:05
Jestan, bootsrap: watermarks, tcpnodelay, keepalive, reuseaddress, backlog. also tried writeSpinCount (it is defaulted to to 16 in DefaultNioSocketChannelConfig), send/receive buffer. As to # of cores, I disabled some cores through BIOS, so Netty can't even see them => problem remains. However Netty still creates 20+ threads, I can't find a way to throttle it. As to 10G link => network is absolutely fine. I wrote my own test streamer on top of vanilla java.nio, and can stream 800K 200 byte messages a second. It is a Netty server beast that I can't yet handle. – tolitius Mar 30 '12 at 5:20
Please specify Executors.newCachedThreadPool() when you construct a ChannelFactory. Using a fixed thread pool will guarantee a lockup. – trustin Apr 2 '12 at 6:54

1 Answer 1

have you tried cpu/interrupt affinity? the idea is to send io/irq interrupts into 1 or 2 cores only and prevent context switch in other cores. give it a good. try vmstat and monitor ctx and inverse context switched before and after. you may unpin the application from the interrupt handler core(s).

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