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I have the following 2 TCP packets I'm picking up on winpcap: or in a pcap format

Those 2 packets are to be reassembled, but their IP flags are "010", meaning "Don't Fragment", and the fragment offset is on 0. They do have a consecutive identification number, but if I understand correctly this alone is not enough to define a fragmented packet.

Wireshark does reassemble those packets, and I can't really understand why.

What am I missing here? How does Wireshark know to reassemble those 2 packets?

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1 Answer 1

First packet:

00 80 f4 09 e6 a5 - Ethernet destination address

00 50 56 26 ab 04 - Ethernet source address

08 00 - Ethernet type, which is IPv4

45 - IP version (4, for IPv4) and header length (5, for 5*4 = 20 bytes)

00 - DSCP/ECN (or TOS, in the old days)

02 40 - total length (576 bytes)

74 ff - identification

40 00 - flags and fragment offset; DF, and a fragment offset of 0

80 - time to live

06 - protocol, which is TCP

When you say "Wireshark does reassemble those packets", are you referring to IP reassembly or TCP reassembly? Those take place at different layers, and I suspect what Wireshark is doing is reassembling all or part of the TCP segment in the first packet and the TCP segment in the second packet to make a packet for the protocol running on top of TCP; TCP is a byte-stream protocol, so there is no guarantee that TCP segment boundaries (which turn into link-layer frame boundaries in almost all cases) correspond to packet boundaries for protocols running on top of TCP.

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Maybe I was looking into the wrong layer! Could you please point to where in the TCP data this fragmentation appears? –  Nitay Oct 1 '13 at 18:06
This is a different form of fragmentation from IP fragmentation. As indicated, the service TCP offers is just a sequence of bytes, with no packet boundaries; the protocol running atop TCP just sends a sequence of bytes over the TCP connection and reads bytes from the TCP connection and assembles them into packets. –  Guy Harris Oct 2 '13 at 1:01

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