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We're trying to tune an application that accepts messages via TCP and also uses TCP for some of it's internal messaging. While load testing, we noticed that response time degrades significantly (and then stops altogether) as more simultaneous requests are made to the system. During this time, we see a lot of TCP connections in TIME_WAIT status and someone suggested lowering the TIME_WAIT environment variable from it's default 60 seconds to 30.

From what I understand, the TIME_WAIT setting essentially sets the time a TCP resource is made available to the system again after the connection is closed.

I'm not a "network guy" and know very little about these things. I need a lot of what's in that linked post, but "dumbed down" a little.

  • I think I understand why the TIME_WAIT value can't be set to 0, but can it safely be set to 5? What about 10? What determines a "safe" setting for this value?
  • Why is the default for this value 60? I'm guessing that people a lot smarter than me had good reason for selecting this as a reasonable default.
  • What else should I know about the potential risks and benefits of overriding this value?
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5 Answers 5

up vote 50 down vote accepted

A TCP connection is specified by the tuple (source IP, source port, destination IP, destination port).

The reason why there is a TIME_WAIT state following session shutdown is because there may still be live packets out in the network on their way to you (or from you which may solicit a response of some sort). If you were to re-create that same tuple and one of those packets showed up, it would be treated as a valid packet for your connection (and probably cause an error due to sequencing).

So the TIME_WAIT time is generally set to double the packets maximum age. This value is the maximum age your packets will be allowed to get to before the network discards them.

That guarantees that, before you're allowed to create a connection with the same tuple, all the packets belonging to previous incarnations of that tuple will be dead.

That generally dictates the minimum value you should use. The maximum packet age is dictated by network properties, an example being that satellite lifetimes are higher than LAN lifetimes since the packets have much further to go.

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How can I determine the "maximum packet age"? Is this set be the OS, something on the network, or some software setting? BTW, the code "generating" most of these connections is a third party platform we don't have source for. Thanks for the great response! –  Vinnie Dec 3 '08 at 16:33
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The real name for it is maximum segment lifetime, MSL. Not sure you can change this in Windows or even if you should - it's meant to be set based on network characteristics. Windows sets it to 120s, I think. All TCP params are in HKEY_LOCAL_MACHINE\System\CurrentControlSet\Services\Tcpip\Parameters. –  paxdiablo Dec 3 '08 at 22:19
    
Not sure you can change this in Windows or even if you should - it's meant to be set based on network characteristics. Windows sets it to 120s, I think. ☹ You can definitely change it in Linux and 120 is way too long. I haven’t tested to confirm, but it looks like having such a long delay makes P2P hell on most routers unnecessarily. –  Synetech Mar 24 '13 at 0:41
    
@Synetech, it should only cause problems if you're cycling through a huge number of sessions. Otherwise, session cleanup on timeout should take care of it. I believe even torrents keep sessions open for a while, reusing them if possible though, of course, it depends on the client. –  paxdiablo Mar 24 '13 at 3:40
    
@paxdiablo, yes, should. I replaced my good old DI-524 with a “newer, better” DIR-625 which I do like, but since then, whenever I merely open a torrent client, my connection dies (no HTTP, NTP, ping, nothing). Other than the router, everything else is the same. I checked TCPView and found that the torrent client has plenty of lingering connections. Closing it almost immediately lets me surf again, so obviously the router is being overwhelmed. Reducing the delay helps (I already reduced the #connections a lot). (Also, that Chrome opens countless connections even for the NTP doesn’t help.) –  Synetech Mar 24 '13 at 13:39

Usually, only the endpoint that issues an 'active close' should go into TIME_WAIT state. So, if possible, have your clients issue the active close which will leave the TIME_WAIT on the client and NOT on the server.

See here: http://www.serverframework.com/asynchronousevents/2011/01/time-wait-and-its-design-implications-for-protocols-and-scalable-servers.html and http://www.isi.edu/touch/pubs/infocomm99/infocomm99-web/ for details (the later also explains why it's not always possible due to protocol design that doesn't take TIME_WAIT into consideration).

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Good point, server will still have to wait for the ACK from its FIN but that should take less time. It's also good practice for the initiator to shut down the session since only it generally knows when it's finished. –  paxdiablo Dec 4 '08 at 3:40

Pax is correct about the reasons for TIME_WAIT, and why you should be careful about lowering the default setting.

A better solution is to vary the port numbers used for the originating end of your sockets. Once you do this, you won't really care about time wait for individual sockets.

For listening sockets, you can use SO_REUSEADDR to allow the listening socket to bind despite the TIME_WAIT sockets sitting around.

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I'll upvote any answer that begins with the phrase "Pax is correct". :-) –  paxdiablo Dec 4 '08 at 3:29
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For very active machines with many thousands of active sockets it's actually possible to tie up all of the ephemeral ports in TIME_WAIT. Once that happens you can't open any more connections until some sockets finish waiting. Reducing the TIME_WAIT duration can help a lot. As mentioned by Len Holgate, it's much better to have the client initiate active close if at all possible, since that obviates the server of TIME_WAIT duties entirely. –  Sam Hanes Aug 2 '11 at 13:31

In Windows, you can change it through the registry:

; Set the TIME_WAIT delay to 30 seconds (0x1E)

[HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\TCPIP\Parameters]
"TcpTimedWaitDelay"=dword:0000001E

In Linux you can change it via config files:

View the timeout:

[root@host ~]# cat /proc/sys/net/ipv4/tcp_fin_timeout

60

Temporarily change it:

[root@dev admin]# echo 30 > /proc/sys/net/ipv4/tcp_fin_timeout

You can also change it permanently by adding net.ipv4.tcp_fin_timeout=30 to /etc/sysctl.conf and according to the SF answer, apparently even “turn it off”.

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setting tcp_fin_timeout doesn't affect time_wait - this is a common misconception. It's for a totally different thing (a FIN timeout, obviously). Lots of guides and such point to this setting but they're wrong. Look at tcp.h and you'll see that it's hard-coded (Linux). –  mcauth Aug 11 at 10:49

TIME_WAIT might not be the culprit.

int listen(int sockfd, int backlog);

According to Unix Network Programming Volume1, backlog is defined to be the sum of completed connection queue and incomplete connection queue.

Let's say the backlog is 5. If you have 3 completed connections (ESTABLISHED state), and 2 incomplete connections (SYN_RCVD state), and there is another connect request with SYN. The TCP stack just ignores the SYN packet, knowing it'll be retransmitted some other time. This might be causing the degradation.

At least that's what I've been reading. ;)

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I'm pretty sure the backlog is only for connections that haven't yet reached ESTABLISHED; once they have, they're removed from the queue; they're only blocking more incoming connections until the (SYN,SYN/ACK,ACK) handshaking is complete, basically once the server returns from accept(). –  paxdiablo Dec 4 '08 at 3:35
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(-1) No, the listen backlog is purely for connections that are not completely established; i.e. they have arrived at the TCP/IP stack but not yet been 'accepted'. If your listen backlog is too small then your server will refuse connections if connections come in more quickly than it can accept them. –  Len Holgate Dec 4 '08 at 9:06
    
A minor misunderstanding. "completed connection queue. This queue contains an entry for each connection for which the three way handshake is completed. The socket is in the ESTABLISHED state. Each call to accept() removes the front entry of the queue." sean.de/Solaris/soltune.html –  yogman Dec 4 '08 at 18:55

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