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I have a java app on linux which opens UDP socket and waits for messages.

After couple of hours under heavy load, there is a packet loss, i.e. the packets are received by kernel but not by my app (we see the lost packets in sniffer, we see UDP packets lost in netstat, we don't see those packets in our app logs).

We tried enlarging socket buffers but this didnt help - we started losing packets later then before, but that's it.

For debugging, I want to know how full the OS udp buffer is, at any given moment. Googled, but didn't find anything. Can you help me?

P.S. Guys, I'm aware that UDP is unreliable. However - my computer receives all UDP messages, while my app is unable to consume some of them. I want to optimize my app to the max, that's the reason for the question. Thanks.

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4 Answers 4

up vote 10 down vote accepted

You are trying to solve the wrong problem. UDP is unreliable communication, period. If packet loss is a problem for you, you should either implement your own retransmission/error control algorithm or not using UDP in the first place. Drop it entirely in favor of TCP, or perhaps something more advanced like SCTP or even DCCP.

UDP is datagram-based, socket buffers should be bigger than the maximum length of an UDP datagram that your application may receive, up to 64kiB. If your application may transmit datagrams larger than this, then it is another reason you should not be using UDP. And it really doesn't matter how big is the buffer, you still may lose packets if your application can't read the socket faster than packets arrive.

You say that you want to know how full the UDP buffer is. This is the sort of thing that doesn't really matter. Just read everything that is waiting on the buffer and you can be sure that when it blocks the buffer will be empty.

If you still want to know how full the buffer is, read the file /proc/net/udp, column rx_queue. But if you see any value different than zero in that column, it just means that your application is not reading the socket fast enough.

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Thanks for the rx_queue, for the rest - see update) – Yoni Roit Feb 19 '10 at 5:35
@Juliano Who says he can choose the protocol to use? Maybe he's implementing a udp based protocol to serve existing clients. – steffen Dec 11 '13 at 10:59
Poster wants to know about monitoring UDP stats, not for opinions on which protocol to use. By first identifying where in the layers loss is occurring, one can then work on a fix. – RickS May 20 at 23:10

UDP is a perfectly viable protocol. It is the same old case of the right tool for the right job!

If you have a program that waits for UDP datagrams, and then goes off to process them before returning to wait for another, then your elapsed processing time needs to always be faster than the worst case arrival rate of datagrams. If it is not, then the UDP socket receive queue will begin to fill.

This can be tolerated for short bursts. The queue does exactly what it is supposed to do – queue datagrams until you are ready. But if the average arrival rate regularly causes a backlog in the queue, it is time to redesign your program. There are two main choices here: reduce the elapsed processing time via crafty programming techniques, and/or multi-thread your program. Load balancing across multiple instances of your program may also be employed.

As mentioned, on Linux you can examine the proc filesystem to get status about what UDP is up to. For example, if I cat the /proc/net/udp node, I get something like this:

$ cat /proc/net/udp   
  sl  local_address rem_address   st tx_queue rx_queue tr tm->when retrnsmt   uid  timeout inode ref pointer drops             
  40: 00000000:0202 00000000:0000 07 00000000:00000000 00:00000000 00000000     0        0 3466 2 ffff88013abc8340 0           
  67: 00000000:231D 00000000:0000 07 00000000:0001E4C8 00:00000000 00000000  1006        0 16940862 2 ffff88013abc9040 2237    
 122: 00000000:30D4 00000000:0000 07 00000000:00000000 00:00000000 00000000  1006        0 912865 2 ffff88013abc8d00 0         

From this, I can see that a socket owned by user id 1006, is listening on port 0x231D (8989) and that the receive queue is at about 128KB. As 128KB is the max size on my system, this tells me my program is woefully weak at keeping up with the arriving datagrams. There have been 2237 drops so far, meaning the UDP layer cannot put any more datagrams into the socket queue, and must drop them.

You could watch your program's behaviour over time e.g. using:

watch -d 'cat /proc/net/udp|grep 00000000:231D'

Note also that the netstat command does about the same thing: netstat -c --udp -an

My solution for my weenie program, will be to multi-thread.


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how do you known your system's max udp queue size is 128KB ? – Chinaxing Jan 27 at 3:47

rx_queue will tell you the queue length at any given instant, but it will not tell you how full the queue has been, i.e. the highwater mark. There is no way to constantly monitor this value, and no way to get it programmatically (see How do I get amount of queued data for UDP socket?).

The only way I can imagine monitoring the queue length is to move the queue into your own program. In other words, start two threads -- one is reading the socket as fast as it can and dumping the datagrams into your queue; and the other one is your program pulling from this queue and processing the packets. This of course assumes that you can assure each thread is on a separate CPU. Now you can monitor the length of your own queue and keep track of the highwater mark.

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The process is simple:

  1. If desired, pause the application process.

  2. Open the UDP socket. You can snag it from the running process using /proc/<PID>/fd if necessary. Or you can add this code to the application itself and send it a signal -- it will already have the socket open, of course.

  3. Call recvmsg in a tight loop as quickly as possible.

  4. Count how many packets/bytes you got.

This will discard any datagrams currently buffered, but if that breaks your application, your application was already broken.

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