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.