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I have C application which transmits UDP stream. It works well in most of servers, but its crazy on few servers.

I have 100 Mbps network connection say eth1 on server. Using this network I usually transmit (TX) around 10-30 Mbps UDP streams, and this network connection will have around 100-300 Kbps RX to server. I have other network connection say eth0 in server from which C application receives UDP streams and forwards to 100 Mbps network connection, eth1.

My application uses blocking sendto() function to transmit UDP packets in eth1. Packets are of variable length, from 17 bytes to maximum 1333 bytes. But most of time, more than 1000 bytes.

The problem is: sometime sendto function blocks on eth1 for huge time around 1 second. This happens once in every 30 seconds to 3 minutes. When sendto blocks, I will have lot of UDP packets buffered in UDP receive buffer from eth0 by kernel, from where C application receive packets. Once sendto returns from long blocking call on eth1, C application will have lot of buffered packets to transmit from eth0. And then C application transmits all these buffered packets with next sendto calls. This will create spike in rate at other endpoint which receives UDP stream from eth1. This will create Z like rate graph at other endpoint. So this Z like spike in rate is my problem.

I have tried to increase wmem_default from around 131 KB to 5 MB in kernel setting to overcome spike. And setting this resolves my issue of spike. Now I don't get Z like spike in rate at other endpoint, but I got new issue. The new issue is: I get lot of packet losses in place of spike. I think it may be due to send buffer of eth1 accumulating lot of packets to send while sending current packet from eth1 takes lot of time (this is why may be sendto blocking long). And at next instant when NIC sends all accumulated packets from send buffer in short time, this may be causing network congestion and I may be getting lot of packet losses instead of spike.

So, this is second problem. But I think root cause is: why sometime NIC pauses for long time while sending traffic, once in every 30 seconds to 3 minutes?

May be I need to look in TX ring buffer of driver of eth1? When socket send buffer gets full due to NIC not transmitting all in time (due to random long TX pauses), then next call to sendto blocks for room in socket send buffer, does that also blocks for room in driver TX ring buffer?

Please dont tell me that UDP is unreliable and we can't control packet losses. I know that its unreliable and UDP packets can be lost. But I am sure still we can do something to minimize packet losses.

EDIT

I have tried to increase wmem_default from around 131 KB to 5 MB in kernel setting to overcome spike. And also I have removed blocking sendto call. Now I use like: sendto(sockfd, buf, len, MSG_DONTWAIT ,dest_addr, addrlen); with large send buffer using wmem_default. Also I am not getting any EAGAIN or EWOULDBLOCK errors on sendto due to large send buffer, but still packets loosing in place of spike.

EDIT

As non-blocking sendto call with huge wmem_default, and as NO any EAGAIN or EWOULDBLOCK errors from sendto, spikes have been removed because no much packets accumulating in receive buffer of eth0. I think its possible solution from application side. But main problem is why NIC slows every few moments? What can be possible reasons? While it resumes from long TX pause, and may be it will have lot of packets accumulated in send buffer, which will be sent as burst next moment and congesting network so lot of packet losses.

More update

I use same this C application to transmit locally in machine (127.0.0.1), and I never get any spikes or packet losses problems locally.

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  • Simply blocking on send seems bad here. You'll want to use some sort of async queue. But really, this is way to broad, especially without any code to go on. – Andrew Barber Dec 17 '14 at 13:54
  • It is a good question. – Maxim Egorushkin Dec 17 '14 at 13:59
  • @AndrewBarber I updated question. I am not using blocking call now, but still packets loosing. – nullptr Dec 17 '14 at 14:01
  • @UDPLover That's the thing: you are supposed to lose packets in UDP when there is network congestion or the NIC queueing discipline tells to drop a packet. – Maxim Egorushkin Dec 17 '14 at 14:03
  • @MaximYegorushkin thanks for information. How can I know if NIC queuing discipline dropping packets? Are packets discarded at lower level queues, after having been buffered in socket send buffer? – nullptr Dec 17 '14 at 14:15
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The problem is: sometime sendto function blocks on eth1 for huge time around 1 second.

Blocking sendto may block, surprisingly.

The problem is: sometime sendto function blocks on eth1 for huge time around 1 second.

It could be that IP stack is performing path MTU discovery:

While MTU discovery is in progress, initial packets from datagram sockets may be dropped. Applications using UDP should be aware of this and not take it into account for their packet retransmit strategy.


I have tried to increase wmem_default from around 131 KB to 5 MB in kernel setting to overcome spike.

Be careful with increasing buffer sizes. After a certain limit increasing buffer sizes only increases the amount of queuing and hence delay, leading to the infamous bufferbloat.


You may also play around with NIC Queuing Disciplines, they are responsible for dropping outgoing packets.

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  • Thanks for answer. So while MTU discovery happening, does NIC stops TXing UDP packets? If so, do I need to turn it off? If so, how can I turn it off? – nullptr Dec 17 '14 at 14:31
  • Thanks for information about bufferbloat, usually I never set SO_SNDBUF or increase wmem_default, I keep it linux default. But for this special problem I needed to do this. – nullptr Dec 17 '14 at 14:34
  • @UDPLover Read man ip(7) for more details how to control MTU discovery through that link I provided for you. – Maxim Egorushkin Dec 17 '14 at 14:34
  • One more thing, can packets be dropped at lower level queues, after having been queued in socket send buffer? – nullptr Dec 17 '14 at 14:37
  • @UDPLover Yep, that's what qdisc's do. Again, read that link about queuing disc.. – Maxim Egorushkin Dec 17 '14 at 14:38

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