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I'm writing a C/C++ client-server program under Linux. Assume a message m is to be sent from the client to the server.

Is it possible for the client to read the TCP sequence number of the packet which will carry m, before sending m?

In fact, I'd like to append this sequence number to m, and send the resulting packet. (Well, things are more complicated, but let's keep it that simple. In fact, I'd like to apply authentication info to this sequence number, and then append it to m.)

Moreover,

is it possible for the server to read the TCP sequence number of the packet carrying m?

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1  
Why on earth do you want to do this? –  Omnifarious Dec 31 '10 at 4:54
    
@Omnifarious: I needed "sequence numbers" in a security protocol. Since implementing them requires keeping a windows (as in TCP), which in turn requires a lot of coding, I thought it might be easier not to re-invent the wheel, and use the underlying TCP sequence numbers. From answers below, the idea seems to be impossible. Do you have an idea to ease implementing "sequence numbers"? –  Sadeq Dousti Dec 31 '10 at 11:18
2  
Your security protocol should not depend on the underlying packetization of the TCP data stream. The way TLS and other stream-based cryptographic protocols handle this is by chunking up the data. Each piece of data is prefixed with a length and suffixed with a MAC. So they provide a record structure within the stream. –  Omnifarious Dec 31 '10 at 16:17
    
@Omnifarious: Thanks! –  Sadeq Dousti Dec 31 '10 at 17:05

3 Answers 3

up vote 4 down vote accepted

no, you can't do that -- at least not with expected result

This is because:

  • TCP is stream based, not packet based.
  • TCP sequence number is in byte, not packet.
  • Underlying TCP layer do the segmentation for you.
  • TCP window size / packet size are dynamic

These means you might send a "packet" with the sequence number at the end of "packet". It turns out, the underlying magics re-segment your packet.

What you want:

    1   2   3   4
  +---+---+---+---+          
  | A | B | C |"1"|  packet 1, seq=1, len=4
  +---+---+---+---+          

    5   6   7   8
  +---+---+---+---+          
  | A | B | C |"5"|  packet 2, seq=5, len=4
  +---+---+---+---+          

What you might get:

    1   2   3   4         
  +---+---+---+---+ 
  | A | B | C |"1"|    packet 1 (seq=1, len=4)
  +---+---+---+---+ 

 (packet 1 got lost) 

    1   2   3   4   5   6
  +---+---+---+---+---+---+
  | A | B | C |"1"| A | B |   packet 1, resent, seq=1, len=6
  +---+---+---+---+---+---+ 

    7   8
  +---+---+
  | C |"5"|  packet 2, seq=7, len=2
  +---+---+
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Also TCP offload tends to make it impossible as even the kernel has no idea on segmentation. –  Steve-o Dec 31 '10 at 6:12
    
Clever ASCII art FTW! :-) –  Omnifarious Dec 31 '10 at 19:38

You can do something very nearly equivalent to this. You can count all the bytes you send and put a count of all the bytes sent before the message at the end of your message.

I get really nervous anytime anybody talks about 'packets' with TCP. Because if you talk about packets and TCP at the same time you are mixing protocol levels that shouldn't be mixed. There is no meaningful correspondence between data you send in TCP and the packets that are sent via IP.

Yes, there are sequence numbers in IP packets used to send TCP information. These sequence numbers are a count of the number of bytes (aka octets) sent so far. They identify where in the stream the bytes in the packet belong, but they are otherwise unrelated to the packet.

If a resend happens, or if you're using the Nagle algorithm, or if the TCP stack feels like it that day, you may end up with two send operations ending up in the same packet. Or, you might end up with half of one send operation ending up in one packet, and half in another packet. And each of those packets will have their own sequence numbers.

As I said, there is absolutely no meaningful relationship between send operations you perform at the transport layer and the packets sent at the network layer. I'm not talking theoretically either. It's not 'really all packets underneath and the send generally, barring some weird condition, puts all the bytes in a single packet'. No, the scenarios I outlined above where the bytes from a single send operation are spread to multiple packets happen frequently and under unpredictable conditions.

So, I don't know why you want to know anything about the sequence numbers in packets. But if you were using the sequence number as a proxy for number of bytes sent, you can keep that count yourself and just stuff it into the stream yourself. And remember to count those bytes too.

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TCP/IP stack does all the things for you. You receive only payload. Stack removes all the headers and provides payload at user space.

If you really want to add or modify at packet header level, try out RAW sockets. RAW sockets receives/sends packet directly from Network card irrespective of transport type (TCP or UDP). In this case you have to strip/add all the headers (TCP/UDP Header, IP Header and Ethernet Header) with your payload.

Checkout a very good video tutorial on RAW Sockets

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