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I'm on a local LAN with only 8 connected computers using a netgear 24 port gigabit switch, network load is really low and send/receive buffers on all involved nodes(running slackware 11) have been set to 16mb. I'm also running tcpdump on each node to monitor the traffic.

A sending node sends a 10044byte large UDP packet which more often than not (3/4 times) does not end up in the receiving side application, in these cases I notice(using tcpdump) that the first x fragments are missing and only the last 3 (all with offsets > 0 and in order) are caught by tcpdump. The fragmented UDP package can therefore not be reassembled and is most likely thrown away.

I find the missing fragments strange since I have also tried a simple load test bursting out 10000 UDP messages of the same size, the receiving application sends a response and all tests so far gives 100% responses back.

Any clues or hints?

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how and on which host are you invoking tcpdump? –  p00ya Aug 25 '09 at 3:21
In the case of fragmented UDP monitoring, on the sending side. tcpdump -vv src atonce and dst athena. –  Kristofer Aug 25 '09 at 6:49
Update: Now running wireshark on receiving end and tcpdump on sending, booth display only the 3 last fragments out of the supposed 7. –  Kristofer Aug 25 '09 at 11:10

1 Answer 1

up vote 0 down vote accepted


After resuming the testing of the above mentioned software I found a repeatable way of recreating the error.

Using windump on the sending windows machine, and tcpdump on the receiving machine, after having left the application idle for some time(~5 minutes), I tried sending the udp message but only end up with a single fragment caught by windump and tcpdump, the 3 remaining fragments are lost. Sending the same message one more time works fine and booth windump and tcpdump catches all 4 fragments and the application on the receiving side gets the message. The pattern is repeatable.

Started searching and found the following information, but to me, still not a clear answer.


Re examining the logs I now notice the ARP request/reply being sent, which matches one of the ideas given in the link above.

NOTE! I filter windump on the sending side using: "dst host receivernode"

Capture from windump: first failed udp message, should be 4 fragments long

14:52:45.342266 arp who-has receivernode tell sendernode
14:52:45.342599 IP sendernode> receivernode : udp

Capture from windump: second udp message, exactly the same contents, all 4 fragments caught

14:52:54.132383 IP sendernode.10104 > receivernode .10113: UDP, length 6019
14:52:54.132397 IP sendernode> receivernode : udp
14:52:54.132406 IP sendernode> receivernode : udp
14:52:54.132414 IP sendernode> receivernode : udp
14:52:54.132422 IP sendernode> receivernode : udp
14:52:56.142421 arp reply sendernode is-at 00:11:11:XX:XX:fd (oui unknown)

Anyone who has a good idea about whats happening? please elaborate!

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Some more research gave this: If no ARP cache entry exists and the UDP size exceeds the MTU, only the last fragment is sent to the destination, the remaining fragments are silently discarded. support.microsoft.com/kb/233401 keil.com/support/man/docs/rlarm/rlarm_tn_using_udp_arpempty.htm A workaround is to extend the chache timeout, or add a keep alive message, or adding a static entry instead of using dynamic. Still, is there any way of getting notified of this happening? –  Kristofer Feb 8 '10 at 15:58
Changing the ArpCacheLife parameter on the windows machine corrected the problem. The linux equivalent is /proc/sys/net/ipv4/neigh/$DEV/gc_stale_time –  Kristofer Feb 12 '10 at 7:47

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