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I send 2 bytes of app data on the socket(blocking) every 10 seconds, but the send call got blocked in the last instance in below long for more than 40 seconds.

  • 2012-06-13 12:02:46.653417|INFO|before send
  • 2012-06-13 12:02:46.653457|INFO|after send (2)
  • 2012-06-13 12:02:57.566898|INFO|before send
  • 2012-06-13 12:02:57.566962|INFO|after send (2)
  • 2012-06-13 12:03:08.234060|INFO|before send
  • 2012-06-13 12:03:08.234101|INFO|after send (2)
  • **2012-06-13 12:03:19.010743|INFO|before send
  • 2012-06-13 12:04:00.969162|INFO|after send (2)**

The tcp default send buffer size on machine(linux) is 65536.

The 2 bytes data is to heartbeat with a server and server expects client to send HB once atleast every 15 seconds.

Also, I did not disable naggle's algorithm.

The question is - can the send call blocked so long like 40 secs? And it is happening only sporadically, it happened after close to 12 hours of running.

The send call I know should just copy the data to TCP send buffer.

publish is called every 10 seconds. No its not gradual slow down of send call. It happens once suddenly and then due to that socket on other side gets closed, so the app exits.

int publish(char* buff, int size) const {
      /* Adds the 0x0A to the end */
      buff[size]=_eolchar;

      if (_debugMode)
      {
          ACE_DEBUG((MY_INFO "before send\n"));
      }

      int ret = _socket.send((void*)buff, size+1);

      if (_debugMode)
      {
          ACE_DEBUG((MY_INFO "after send (%d)\n", ret));
          //std::cout << "after send " << ret << std::endl;
      }

      if (ret < 1)
      {
          ACE_DEBUG((MY_ERROR "Socket error, FH going down\n"));
          ACE_OS::sleep(1);
          abort();
      }
      return ret;
 }
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What exactly is the question? Sometimes packets can get delayed... –  peacemaker Jun 14 '12 at 17:01
    
Please give the code which is doing the send call –  peacemaker Jun 14 '12 at 17:14
    
How often is publish() being called? Have you tested your ACE_DEBUG call to see how long that takes? Do you notice a slowdown over time or just the one 40 second block then it goes back to normal? –  peacemaker Jun 14 '12 at 17:20
    
publish is called every 10 seconds. No its not gradual slow down of send call. It happens once suddenly and then due to that socket on other side gets closed, so the app exits. ACE_DEBUG is only added for sake of printing trace, issue happens without ACE_DEBUG also. –  Medicine Jun 14 '12 at 17:27
    
From that all I can say is probably the send is blocking for a while, which happens sometimes depending on packet loss etc. –  peacemaker Jun 14 '12 at 17:39

2 Answers 2

up vote 1 down vote accepted

When using blocking send() call, you can see the remote tcp buffer, the network and the local sending tcp buffer as one big buffer, in the point of view of your application. That is, if the remote application get delayed in reading new bytes in its tcp buffer, eventually your local tcp buffer will end in being (nearly) full, and if you try to send() a new payload that overflows the tcp buffer, the send() implementation (the kernel system call)
won't return the focus to your application untill the tcp buffer get enough room to store that payload. And the only way to reach that state is when the remote application do not read enough bytes. A typical scenario in TEST environment is when the remote application pauses on a breakpoint ... :-)

This is what we call a SLOW CONSUMER issue. If you share that diagnosis, then there is multiple ways of getting rid of that issue:

  1. If you have control over the remote application, make it "fast" enough so that the local application won't get blocked.
  2. When you don't have the control of the remote application, then there could be multiple answers. It can be ok for your own needs to block up to 40 seconds. But if not so, you need to use an unblocking version of the send() system call. From here, there are multiple possible policies. (Hold on please! :-) ) You can try to use a dynamic array which acts as a fake sending tcp FIFO and grows when the sending call returns you EWOULDBLOCK. But then you likely have to use the select() system call to detect when the remote application keeps up with the pace and send it the unseen data first. It can be a little bit trickier that the simple publish() function you have here (while quite common in most of network applications). You have to know also there is no guarantee that the dynamic buffer grows to the point you no longer have any free memory, and then your local application could crash. A typical policy in "real-time" network application is to choose an arbitrary maximum size for the buffer which close the tcp connection when reached, thus avoiding your local application to get out of free memory. Choose that max wisely, since it depends on the number of potential slow consumer connections..
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As a side note, another typical SLOW CONSUMER scenario is when two application communicates through a very slow/long WAN. I encounter that case one time through a WAN from Japan to Australia. The remote application was ok, but the WAN was so slow.. –  yves Baumes Jun 14 '12 at 17:44
    
could this be because the naggle's algorithm is not turned off? I am only sending 2 bytes of data(plus tcp header). (But for 12 hours every 10 seconds, the data was sent in micro seconds time to the remote host, so I doubt the naggle's algorithm is issue here). remote host's receive window size is 8192 bytes. –  Medicine Jun 14 '12 at 19:07
    
@Medicine Are you able to check out the log files on the remote application side? –  yves Baumes Jun 14 '12 at 20:31
    
no I cannot, as it is exchange ;) –  Medicine Jun 14 '12 at 21:53
    
@Medicine oh. Are you working in Market access developemnt team ? I do. –  yves Baumes Jun 15 '12 at 6:53

The following(and more that I am not gonna mention now) are considered blocking system calls:
send, connect, recv, accept.

What this means is that they can block as far as they need till the specified job is done. So yes, send can block for 40 seconds and more, depending on how much time it takes to send the data; though I cannot know why it blocked that long in your specific case.

If you want to avoid this blocking, I advice you to read about asynchronous sockets and I/O. They MIGHT prove to solve part of your problem.

share|improve this answer
    
Thanks. send taking that long should imply that the underlying network link is bad, correct? heavy packet loss, may be? –  Medicine Jun 14 '12 at 17:24
    
@Medicine when there is too much packet loss, I would say (while not sure) that at some point a TCP RESET would happen. And then you should see the send() returning you an error. –  yves Baumes Jun 14 '12 at 17:48
    
@Adel, not sure how non-blocking sockets help here, because if I cannot actually send the data to the remote host in 5 seconds, the connection will be disconnected. Its not that I want to get the cpu cycles which are lost in a blocking socket. –  Medicine Jun 19 '12 at 13:56

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