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Recently I changed a program which acts as a TCP server to help share the traffic on a serial port connected to a device. Multiple clients connect and should have access to the Serial Port and act simultaneously.

Application is built using C++Builder, using TIdTCPServer in the server and TIdTCPClient in the client application.

Multiple clients need to connect and send commands to the serial port. The serial port will respond immediately after sending a command to it, as per the protocols of the device it is attached to.

There is also a background thread which occasionally accesses the serial port and updates a memory cache of data held in the server's memory. The commands for sending and receiving from the serial port have a mutex on them, so they are accessible from both the TIdTcpServer's OnExecute event and the background thread.

I'm having difficulty getting the TIdTCPServer's OnExecute event to work without overlapping.

It would be really nice if the OnExecute event were to execute fully without another request coming in from another client, causing the overlapping.

Here is the OnExecute event handler of the TIdTCPServer:

void __fastcall TfrmMain::IServerExecute(TIdContext *AContext)
{
    int  i;
    int Len;
    TIdBytes TRB, TSB;
    unsigned char ARB[BUFFERLENGTH];
    int NumbSent, NumbReceived;

    // Read the command from the client.  Send the length first then the actual data.
    Len = AContext->Connection->Socket->ReadLongInt();
    AContext->Connection->Socket->ReadBytes(TRB, Len, false);

    memset(ARB,0,BUFFERLENGTH);
    for(i=0;i<Len;i++) AOB[i]=TRB[i];

    NumbSent=Len;


    // Now send it out to the Serial port
    ProcessSerialMessage(AOB, Len, ARB, &NumbReceived, false);

    sending=false;

    TSB.Length=NumbReceived;
    for(i=0;i<TSB.Length;i++) TSB[i]=ARB[i];
    AContext->Connection->Socket->Write(TSB.Length);
    AContext->Connection->Socket->Write(TSB);

    return;
}

Here is the routine for sending the data out over the serial port:

int ProcessSerialMessage(unsigned char *SendBuf, int NumbSBytes, unsigned char *ReceiveBuf, int *NumbRBytes, bool CalledFromThread)
{

    // MMUtex is a global TMutex Object
    // Mutex required to help with the background thread trying to update memory cache.
    MMutex->Acquire();


    // Ok now send the data out over the serial port and receive it.
    // These routines are standard serial port I/O routines and aren't explained here.
    rawsend(SendBuf, NumbSBytes);
    rawreceive(ReceiveBuf, NumbRBytes);

    RetValue=*NumbRBytes;
    MMutex->Release();

    return(RetValue);
}
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  • Hi Remy. I was hoping you would answer my question as I see you are one of the authorities on this component. I tried sending you an email from your web site but couldn't because the Captcha on your site fails every time I try. Jul 24 at 11:43
  • Anyways, I am having unpredictable results when I have 2 or more clients attached and siimultaneously trying to access the serial port at the same time. I would like to put together a PDF file and send it to you for you to look at as I will have to take a few snapshots of the screens for you to visualize what is going on. Is there a way in which I can email them to you? Jul 24 at 11:44
  • Where is your AOB variable declared? In the code shown, it is not a local variable, like ARB is. Which means it Isa shared variable that is not being protected from concurrent access. Why are you not passing your TRB and TSB arrays directly to ProcessSerialMessage()? The loops to copy bytes from one array to another are not necessary, thus you can eliminate AOB and ARB. That might solve your isuue. Jul 24 at 15:01
  • Its declared globally. Jul 24 at 15:13
  • I was afraid of that. Then you have a concurrency conflict when reading in your client data. I have posted an answer about that Jul 24 at 15:18
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TIdTCPServer is a multi-threaded component. Each connected client runs in its own independent thread. The OnExecute event runs in those threads. So, it is your responsibility to make sure your OnExecute code is thread-safe, by serializing access to any shared resources.

You are using a mutex inside of ProcessSerialMessage(), so you are serializing access to the serial port (assuming your other background thread is also entering the same mutex). So that should be fine (although, I would suggest protecting the mutex locking/unlocking using a try..__finally block, or a local RAII-style class, to ensure the mutex is unlocked properly even if an exception is thrown).

However, one major issue I see with this code is that your AOB (and sending) variable is not declared as a local variable to IServerExecute(), which means it must be a shared variable accessed across threads (UPDATE: you have confirmed that in comments: "[AOB is] declared globally."). But, it is not being protected from concurrent access by multiple threads, which means that multiple clients are free to overwrite each other's inbound data while it is being sent to the serial port.

You are reading the serial port's response into local variables, and then using them to send back to the requesting clients. So there is no concurrency issue in that code.

I would suggest passing your TRB and TSB arrays directly to ProcessSerialMessage(). The 2 loops you have to copy bytes from one array to another are not really necessary, thus you can eliminate the AOB and ARB variables from this code completely. That might be enough to solve your issue.

Try this:

void __fastcall TfrmMain::IServerExecute(TIdContext *AContext)
{
    TIdBytes TRB, TSB;
    int NumbSent, NumbReceived;

    // Read the command from the client.  Send the length first then the actual data.
    NumbSent = AContext->Connection->Socket->ReadLongInt();
    AContext->Connection->Socket->ReadBytes(TRB, NumbSent, false);

    TSB.Length = BUFFERLENGTH;

    // Now send it out to the Serial port
    ProcessSerialMessage(&TRB[0], NumbSent, &TSB[0], &NumbReceived, false);

    AContext->Connection->Socket->Write(NumbReceived);
    AContext->Connection->Socket->Write(TSB, NumbReceived);
}
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  • Thanks Remy!!!! Its working perfectly now. Even though I didn't post all the source code, it was the definition of the buffers that was messing it up. Fixed it up and all is well. Thanks for your help!!!! Jul 24 at 15:48
  • Glad it was helpful. Now, you should have a look at What should I do when someone answers my question? Jul 25 at 21:02
  • Remy, just out of curiosity, when dealing with a serial port in this manner, what is the proper way to close the TIdTCPServer component IF there are still active clients attached to it? I have put code in my client applications to check for this and will stop all communications if it happens. However, in the server, simply putting TIdTCPServer->Active=false causes the server to hang. Jul 27 at 18:12
  • "in the server, simply putting TIdTCPServer->Active=false causes the server to hang" - the Active property setter is synchronous. When setting it to false, it does not exit until all clients are disconnected and the server is fully deactivated. If you deactivate the server in the main thread, and then try to synchronize with the main thread while it is waiting for the deactivation to finish, that is a deadlock situation. So, either don't sync with the main thread while it is deactivating the server, or else move the deactivation to a separate thread so the main thread is not blocked. Jul 27 at 18:22
  • Remy, Can you give me an example of how to work around this? I have tried the following and it doesn't work: ``` ClientList = IServer->Contexts->LockList(); try { for (i = 0; i < ClientList->Count; i++) { MyContext = (TIdContext*) ClientList->Items[i]; MyContext->Connection->Disconnect(); } } __finally { IServer->Contexts->UnlockList(); } try { IServer->Active=false; } catch(...) { } ``` Jul 27 at 18:24

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