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This is code I'm using to test a webserver on an embedded product that hasn't been behaving well when an HTTP request comes in fragmented across multiple TCP packets:

/* This is all within a loop that cycles size_chunk up to the size of the whole 
 * test request, in order to test all possible fragment sizes. */
TcpClient client_sensor = new TcpClient(NAME_MODULE, 80);    
client_sensor.Client.NoDelay = true;    /* SHOULD force the TCP socket to send the packets in exactly the chunks we tell it to, rather than buffering the output. */
/* I have also tried just "client_sensor.NoDelay = true, with no luck. */
client_sensor.Client.SendBufferSize = size_chunk; /* Added in a desperate attempt to fix the problem before posting my shameful ignorance on stackoverflow. */
for (int j = 0; j < TEST_HEADERS.Length; j += size_chunk)
{
    String request_fragment = TEST_HEADERS.Substring(j, (TEST_HEADERS.Length < j + size_chunk) ? (TEST_HEADERS.Length - j) : size_chunk);
    client_sensor.Client.Send(Encoding.ASCII.GetBytes(request_fragment));     
    client_sensor.GetStream().Flush();   
}
/* Test stuff goes here, check that the embedded web server responded correctly, etc.. */

Looking at Wireshark, I see only one TCP packet go out, which contains the entire test header, not the approximately header length / chunk size packets I expect. I have used NoDelay to turn off the Nagle algorithm before, and it usually works just like I expect it to. The online documentation for NoDelay at http://msdn.microsoft.com/en-us/library/system.net.sockets.tcpclient.nodelay%28v=vs.90%29.aspx definitely states "Sends data immediately upon calling NetworkStream.Write" in its associated code sample, so I think I've been using it correctly all this time.

This happens whether or not I step through the code. Is the .NET runtime optimizing away my packet fragmentation?

I'm running x64 Windows 7, .NET Framework 3.5, Visual Studio 2010.

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    I wonder if perhaps WireShark is combining the the packets after they are on the wire. It doesn't seem at all applicable in this case, but it apparently does have some reassembly capabilities. This seems unlikely, and I'm probably just wasting your time by suggesting it as a possibility. Jan 7, 2012 at 0:05
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    I would advise against using derogatory terms such as "nanny-state" until you're sure that you're using the system correctly. The first rule of getting on high-horses is, "make sure yours isn't just a donkey." Jan 8, 2012 at 4:24
  • @KennetBelenky, noted, I've removed the offending text. I was just making a joke, though =)
    – Sam Skuce
    Jan 8, 2012 at 6:32
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    @SamSkuce Thanks and NP. I just bristle a little bit because people often don't realize how many thousands of lines of annoying boilerplate C++ they get to avoid in exchange for the occasional weirdness of .Net. That said, I've banged my head against .Net many times, and every single time it's turned out that I was the one who hadn't grasped the whole picture. Jan 8, 2012 at 16:42

4 Answers 4

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TcpClient.NoDelay does not mean that blocks of bytes will not be aggregated into a single packet. It means that blocks of bytes will not be delayed in order to aggregate into a single packet.

If you want to force a packet boundary, use Stream.Flush.

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  • No luck. The documentation for TcpClient.GetStream().Flush says this is only there "For Future Use". It's strange that when I don't embed this in a loop, e.g. writing two constant buffers through the socket while NoDelay is True, even on successive lines with no code delays in between, this has worked as I expected it to in the past. Thanks though!
    – Sam Skuce
    Jan 8, 2012 at 4:39
  • Are you sure your sockets are in synchronous mode (Blocking = false)? If your sockets are in non-blocking mode, your writes might be aggregated into single packets. That will happen if two subsequent writes happen while the socket is still flushing a previous write. Jan 8, 2012 at 5:05
  • TCP is a stream protocol that is why you cannot make any assumptions that there can be "single packets". If you send 4 bytes and then 6 bytes - peer on the other side can receive 3 bytes and after another call to receive another 7 bytes. Jan 8, 2012 at 6:06
  • @VadymStetsiak, yes that's the way you're supposed to treat TCP when you're reading it, but the documentation for the NoDelay property (now linked in question text) clearly states that setting the property to true should result in sending the bytes in separate packets exactly as you write them.
    – Sam Skuce
    Jan 8, 2012 at 6:34
  • @KennetBelenky, when I set blocking = false, it exceptions with "not allowed on a non-blocking socket" when I call the Send function. There's probably something else I need to do to make it work in non-blocking mode, but I think my plan now is to try and rewrite this in native C++ code come Monday. Thanks for all your help!
    – Sam Skuce
    Jan 8, 2012 at 6:45
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Grr. It was my antivirus getting in the way. A recent update caused it to start interfering with the sending of HTTP requests to port 80 by buffering all output until the final "\r\n\r\n" marker was seen, regardless of how the OS was trying to handle the outbound TCP traffic. I should have checked that first, but I've been using this same antivirus program for years and never had this problem before, so I didn't even think of it. Everything works just the way it used to when I disable the antivirus.

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  • Good find! For clarity, would you like to disclose the name of the antivirus software?
    – Crypth
    Nov 13, 2015 at 7:53
  • @Crypth, it's Trend Micro. I haven't needed to rerun this test in the past 4 years, so I don't know if it's still doing it.
    – Sam Skuce
    Nov 17, 2015 at 14:31
  • Cheers, been having some unexpected issues with HTTP requests for some customers, and we've been thinking in the lines of proxy rewriting the traffic, but obviously AV is a possible cause as well.
    – Crypth
    Nov 17, 2015 at 15:04
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The MSDN docs show setting the TcpClient.NoDelay = true, not the TcpClient.Client.NoDelay property. Did you try that?

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  • No dice. I have used it my way successfully in the past as well. Thanks though!
    – Sam Skuce
    Jan 8, 2012 at 4:38
  • A few ideas: Are you sure that the server receive buffer isn't full at the time of the send (which would cause the send to buffer until blocked)? Also - the MSDN docs show reading the NoDelay property back to test it was successfully set - try adding that to verify that the client/socket honored the request (don't know why it wouldn't). Finally, here's a related SO question on this topic: stackoverflow.com/questions/5523565/…
    – holtavolt
    Jan 8, 2012 at 15:35
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Your test code is just fine (I assume that you send valid HTTP). What you should check is why TCP server is not behaving well when reading from TCP connection. TCP is a stream protocol - that means you cannot make any assumptions on the size of data packets unless you explicitly specify those sizes in your data protocol. For instance you can prefix all your data packets using fixed-size (2 bytes) prefix, that will contain the size of the data to be received.

When reading HTTP usually read is made of several phases: read HTTP line, read HTTP headers, read HTTP content (if applicable). First two parts do not have any size specifications, but they have special delimiter (CRLF).

Here is some info how HTTP can be read and parsed.

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  • That's why I wrote the test code - so I can test the fixes to the web server.
    – Sam Skuce
    Jan 8, 2012 at 6:27

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