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PROBLEM: Micro-controller is transmitting 10 bytes(ASCII A,B,C,D,E,F,G,H,I,J) in for-loop under debugger control. Windows application (C++/CLI Code abstracted below) is supposed to receive these bytes.

Refer the two different FT_Read attempts, first in while-loop and second in for-loop

Case #1: Executing micro-controller-for-loop in one-go, the While loop exits with RxMessage array holding first byte correctly as 'A' and rest nine bytes as junk. where fsuccess returned as FT_OK and TotalRxBytes=10

Case #2: Stepping in micro-controller-for-loop to transmit byte by byte, the While loop exits with RxMessage array holding 'A',0xFF,'B',0xFF,'C',0xFF,'D',0xFF,'E',0xFF. while fsuccess returned as FT_OK and TotalRxBytes=10

Case #3: Stepping in micro-controller-for-loop to transmit byte by byte. Executing Windows-app For-loop in one go. The Windows-app For-loop exits with RxMessage holding all 10 bytes correctly as 'A','B','C','D','E','F','G','H','I','J'.

Note: In case 1 & 2 above, the micro-controller-for-loop takes 5 iterations for Windows-app For-loop to exit as if '?' and 0xFF transmitted in every micro-controller-for-loop iteration. Whereas in Case #3, micro-controller-for-loop takes exactly 10 iterations to Windows-app For-loop to exit, as if FT_Read + FT_Purge removes undesired 0xFF chunk

             private:
    /// Required designer variable.
        PVOID fth;
        BOOL fSuccess, fthsuccess;
        array<wchar_t> ^ TxMessage;
        array<unsigned char> ^ RxMessage;


    Form1(void) //Constructor
    {
        fthsuccess = false;
        InitializeComponent();
        TxMessage = gcnew array<wchar_t> (12);
        RxMessage = gcnew array<unsigned char> (12);
    }



    /*PS. All the FT_xxxx calls below are tested for fsuccess before proceeding ahead */
    FT_Open(0, ppfthandle);
    FT_SetBaudRate(*ppfthandle, 9600);
    unsigned char LatencyTimer;
    FT_SetLatencyTimer(*ppfthandle, 2);
    FT_GetLatencyTimer(*ppfthandle, &LatencyTimer);
    FT_SetDataCharacteristics(*ppfthandle, FT_BITS_8, FT_STOP_BITS_1, FT_PARITY_NONE);
    FT_SetTimeouts(*ppfthandle, 10000/*read*/, 1000/*write*/);


    if(fthsuccess == true)
    {
        pin_ptr<FT_HANDLE> ppfthandle = &fth;

        pin_ptr<wchar_t> ppTx = &TxMessage[0];
        fSuccess = FT_Write(*ppfthandle,&ppTx[0],4,&dwhandled);

        /*in absence of Purge below, Tx chars echo as part of Rx chars
        ultimately workaround would be needed to avoid Purging of 
        real time RxData at runtime
        */
        FT_Purge(*ppfthandle, FT_PURGE_RX | FT_PURGE_TX);

        pin_ptr<unsigned char> ppRx = &RxMessage[0];
        DWORD RxBytes,TotalRxBytes;
        RxBytes=TotalRxBytes=0;
        while(TotalRxBytes<10){
        FT_GetQueueStatus(*ppfthandle,&RxBytes);
        fSuccess = FT_Read(*ppfthandle,ppRx,RxBytes,&dwhandled);//reading 10 bytes in one go
        if(fSuccess != FT_OK){
            break;
        }
        TotalRxBytes += dwhandled;
        ppRx = &RxMessage[TotalRxBytes];
        }

        fSuccess = FT_Purge(*ppfthandle, FT_PURGE_RX | FT_PURGE_TX);
        ppRx = &RxMessage[0];//reset ppRx and attempt read in for-loop, the same bytes from micro-controller
        for(int i=0;i<10;i++)//reading byte-by-byte in debug steps
        {
            fSuccess = FT_Read(*ppfthandle,&ppRx[i],1,&dwhandled);
            /*in absence of Purge below, alternate characters are read as 0xFF
            ultimately workaround would be needed to avoid Purging of 
            real time RxData at runtime
            */
            FT_Purge(*ppfthandle, FT_PURGE_RX | FT_PURGE_TX);
        }
    }// if (!fthsuccess)

Code snippet from microcontroller below:

    uint8_t Series[10]={'A','B','C','D','E','F','G','H','I','J'};
    for(loopcount=0;loopcount<10;loopcount++)
    {
        UART1Send(Series+loopcount,1);
    }
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  • @BradL any suggestions to resolve the same as FT_Read should work without resorting to byte-by-byte read in For-loop that too with FT_Purge to follow every FT_Read
    – Rich
    Aug 31 '13 at 14:37
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    Have you tried calling FT_GetStatus(...) to discover how many characters are waiting to be read? Also, in the interests of isolating where the problem is, it might be worth temporarily declaring a local char rxBuffer[11] and passing that instead of ppRx. That would help you be sure that the problem is exclusively with FT_Read(). You really shouldn't have to resort to that loop reading one character at a time. Aug 31 '13 at 14:56
  • @JohnSheridan I had attempted FT_GetQueueStatus instead, edited the original post to this effect. local char array had also been tried with same results
    – Rich
    Aug 31 '13 at 16:22
  • In that additional code snippet you added it should read TodalRxBytes += dwHandled; You should also pass ppRx + TotalRxBytes to FT_Read in that loop otherwise any contents of the array pointed to by ppRx could be overwritten if there is more than one iteration over the loop. What value does fSuccess have after the FT_Read? Aug 31 '13 at 17:01
  • The fact that you can get data if you purge between each read would certainly raise questions about whether the writing and reading ports are both setup identically. Double check FT_SetDataCharacteristics(*ppfthandle, FT_BITS_8, FT_STOP_BITS_1, FT_PARITY_NONE) is correct. Aug 31 '13 at 17:21
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Double check FT_SetDataCharacteristics(*ppfthandle, FT_BITS_8, FT_STOP_BITS_1, FT_PARITY_NONE) is correct. Any mismatch between the two devices will result in problems.

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