I’m writing some code in .Net/C# to communicate with some factory equipment over Ethernet. I first assign a handler:
_TCPConn.BeginReceive( _StateObject.sBuffer, 0, _StateObject.sBuffer.Length, SocketFlags.None, new AsyncCallback(Socket_DataArrival), _StateObject);
And then in my handler, first thing, I do an EndReceive, then I transfer the data from the socket’s buffer to my own input buffer for further processing later, I log some stuff, then I do a BeginReceive to start things up again and I exit the handler. So ...
.... StateObject stateObject = (StateObject)ar.AsyncState; int bytesReceived = stateObject.sSocket.EndReceive(ar); // transfer bytes, log stuff, then reenable receive and leave . . . _TCPConn.BeginReceive( _StateObject.sBuffer, 0, _StateObject.sBuffer.Length, SocketFlags.None, new AsyncCallback(Socket_DataArrival), _StateObject); return;
This works fine most of the time but if the factory equipment sends 2 packets close together it fails. Here's a Wireshark (network sniffer) output. The first column is the time delta from the previous packet in microseconds (yes, "micro", not "milli")
002397 10.1.1.116 10.1.2.11 TCP .... Len=6 000024 10.1.1.116 10.1.2.11 TCP .... Len=9
When this happens the first packet seems to disappear - the handler never gets called for the 6 byte packet, only the 9 byte one. I know the packet's arriving on the PC because Wireshark shows it.
BUT if we introduce a delay in the factory equipment, so instead of 24 microsec's it's 10 millisec's the problem goes away. Unfortunately that's not a solution because there's a large base of installed equipment in factories around the world we can't change.
Any suggestions for how to debug and fix this? Thank you in advance!