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I have the following code in my OnExecute in C++ Builder XE:

void __fastcall Test::TestExecute( TIdContext* AContext )
{
   try
   {
      // get the command directive
      DWORD startTime = timeGetTime( );
      UnicodeString DBCommand = AContext->Connection->IOHandler->ReadChar();
      DWORD endTime = timeGetTime();
      UnicodeString log;
      log.printf( L"getting command %d ms", endTime - startTime );
      Log( log );
      ...

The log starts at getting command 100 milliseconds and creeps to 300 where it sits for the rest of the application run. I thought that OnExecute was called once data was in the buffer, so why would it take 100 to 300 ms for the first read to succeed?

After this first read in the same OnExecute all other data is read very very quickly (millisecond to sub millisecond).

What could be going wrong?

EDIT:

at method launch: AContext->Connection->IOHandler->InputBuffer->Size is 0. After the first read returns AContext->Connection->IOHandler->InputBuffer->Size contains whats left int he buffer after the read. So this implies that OnExecute is called before any data is actually available to the caller. So the 100-300 ms is the amount of time its taking Indy to fetch the data from the socket and place it in the Buffer after it get notification that data is arriving. That seems way too long.

EDIT:

removed do{ as it was implying a loop that was not there.

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1 Answer 1

up vote 0 down vote accepted

The OnExecute event is not tied to the socket buffer at all. TIdTCPServer begins calling OnExecute immeidately after the OnConnect event is called, and continues calling OnExecute in an endless loop until the client disconnects (in other words, you should NOT be looping yourself inside of your OnExecute handler. Read a packet, process, exit, wait for the next event, repeat).

You are correct that the InputBuffer can grow larger than what you are asking for in code. All of the IOHandler's reading methods get their data from the InputBuffer only, not the socket directly. If the InputBuffer does not have enough bytes cached to satisfy a read request, the IOHandler will then wait for bytes to be available on the socket, and will then read all of the bytes into the InputBuffer for later use. This minimizes how often the socket needs to be accessed, and help keep the socket responsive to new data.

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Sorry, the do{ was implying a loop that did not exist. I do not loop in the OnExecute, I use do{}while(false); to exit out early. OnExecute is called when data arrives, is that correct? But it still takes 100 to 300 ms to get the first data after OnExecute` is called. I don't recall this occurring in C++ Builder 2010. –  Gregor Brandt Feb 16 '11 at 14:05
    
No, OnExecute is not called when data arrives. As I said, it is called immediately after OnConnect exits, and is called in an endless loop for the lifetime of the connection, regardless of any data. It is the OnExecute handler's responsibility to manage data operations as needed. When OnExecute is called, TIdTCPServer expects the handler to block the calling thread as needed, yielding when needed, but TIdTCPServer itself does nothing more beyond that. As for any differences between 2010 and XE, there were no changes in Indy regarding this. It has always worked this way. –  Remy Lebeau Feb 16 '11 at 17:42
    
Right, I misunderstood your first post. The 'regardless of any data' solves the problem for me. –  Gregor Brandt Feb 16 '11 at 20:18

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