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Right now I have a communication infrastructure compose of a client and server.

The client connects to the server using standard TCP sockets.

I have a message structure that is as follows:

4 bytes -- Message size
n bytes -- Message
4 bytes -- CRC32 checksum

One of the requirement is that to be valid the message must pass the CRC32 check on the other end of the connection, either the client or the server process the messages the same way.

If the message fails the CRC32 check, the connection is severed and a new connection established.

My question is why the heck I get CRC32 failures at random?

For no apparent reason, even with both client and server on the same machine using loopback address (

I thought that even though I've programmed the failsafe in case of a malicious third party or something, I would never see a connection to be dropped during my tests.

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My best guess would be that there's a bug in your checksum code. Can you show us some minimal example code? –  tjollans Jul 7 '11 at 15:13
I'd assume there's an error either in reading/writing (eg. assuming that recv always returns the exact data length required, similar for send) or an error in your code checking/creating the CRC. posting some code would go a long way to clarifying this and helping us help you. –  Hasturkun Jul 7 '11 at 15:14

2 Answers 2

up vote 6 down vote accepted

You didn't show any code, so I can only guess.

  • You are reading bytes from the sockets without checking the size read. TCP is a stream-oriented protocol so there are no guarantees regarding the number of reads you have to perform to get the entire data sent. The only guarantee is that after an unspecified number of reads, using an unspecified number of segments, you will get all the octets, in order

  • Your checksum functions fails for some inputs because it is incorrect

The first one is probably what's going on. You're reading some data and recv / read returns with fewer bytes read than you expect.

As an aside, you do realize what you are trying to do right ?

  • The ethernet frame has a CRC-32 field
  • The IPv4 packet has a 16b header checksum
  • The TCP segment has a 16-b checksum covering both the header, the data and then some
  • Your data will also have a CRC-32

You realize it's redundant, right ?

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+1 for the redundancy observation. I've worked with protocols that included some kind of framing byte that marked the end or beginning of the message. That allows you to make sure that the sender of a message hasn't sent a corrupt message (Message not matching MessageSize). That would probably be helpful to confirm that the message is valid without having to resort to a CRC calculation –  Lou Jul 7 '11 at 15:29

BTW the correct way to check a checksum at the receiver is to compute it over the entire message and the checksum, considered jointly as a longer message. The result should be zero. That way you are including the checksum itself in the calculation. The wrong way to do it is to compute the checksum over the message excluding the checksum and then compare to the received checksum.

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Could you expand on how that is supposed to work? Because I've never heard of it, and I'm curious :) –  x3ro Jul 8 '11 at 1:24
What in particular is wrong with the wrong way you described? Seems to me that either method would work (where "work" == "generates a checksum mismatch error if the data got corrupted"), but I'm probably missing some detail. –  Jeremy Friesner Jul 8 '11 at 2:21
The checksum is defined as the XOR-remainder over the message, so including it in the calculation must produce zero. It is a superior method for the reason I gave: it doesn't assume that the checksum itself was transmitted correctly. It is possible to imagine corruptions that corrupt the message and the checksum in compatible ways: this catches them. –  EJP Jul 9 '11 at 0:04

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