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Overview:

Goal is to read isochronous data from a guitar using a working USB cable plugged into a guitar. I have been using LibUsbDotNet and have been working with both the official example code for isochronous read and some unofficial example code which is closely based on the official code anyway.

I have used the USBInfinity wizard which is included with LibUsbDotNet to install the lib-USB driver for the USB cable. Before I did this, the program stopped working much earlier. After installation however, everything seems to have worked smoothly up to the point in question.

The error seems to be something to do with the TransferContext of the UsbEndpointReader which is related to the UsbTransferQueue.

Problem:

The problem seems to begin when I create the UsbEndpointReader..

 // Open read endpoint.
 UsbEndpointReader reader = MyUsbDevice.OpenEndpointReader(
                (ReadEndpointID)usbEndpointInfo.Descriptor.EndpointID,
                0,
                (EndpointType)(usbEndpointInfo.Descriptor.Attributes & 0x3));


 if (ReferenceEquals(reader, null))
 {
     throw new Exception("Failed locating read endpoint.");
 }

 reader.Reset();

Whilst the reader is "successfully" created. It seems however that the TransferContext property within the reader is corrupt. Below are the TransferContext properties from the instance of reader just after it has been created by the above code.

    TransferContext         {LibUsbDotNet.Internal.OverlappedTransferContext}   LibUsbDotNet.Main.UsbTransfer {LibUsbDotNet.Internal.OverlappedTransferContext}
            [LibUsbDotNet.Internal.OverlappedTransferContext]   {LibUsbDotNet.Internal.OverlappedTransferContext}   LibUsbDotNet.Internal.OverlappedTransferContext
    AsyncState              '(((LibUsbDotNet.Main.UsbEndpointBase)(reader)).TransferContext).AsyncState' threw an exception of type 'System.NotImplementedException'    object {System.NotImplementedException}
    AsyncWaitHandle         {System.Threading.ManualResetEvent} System.Threading.WaitHandle {System.Threading.ManualResetEvent}
    CancelWaitHandle        {System.Threading.ManualResetEvent} System.Threading.WaitHandle {System.Threading.ManualResetEvent}
    CompletedSynchronously  false   bool
    EndpointBase            {LibUsbDotNet.UsbEndpointReader}    LibUsbDotNet.Main.UsbEndpointBase {LibUsbDotNet.UsbEndpointReader}
    IsCancelled             false   bool
    IsCompleted             true    bool
    IsoPacketSize           0       int
    Remaining               0       int
    Transmitted             0       int

There are no errors at that point however. The error comes in here, ec = transferQueue.Transfer(out handle);

                UsbTransferQueue.Handle handle;

                // Begin submitting transfers until TRANFER_MAX_OUTSTANDING_IO has been reached.
                // then wait for the oldest outstanding transfer to complete.
                ec = transferQueue.Transfer(out handle);

                if (ec != ErrorCode.Success)
                    throw new Exception("Failed getting async result");

It results in exception with the error message "Win32error"

I did notice that the UsbDeviceDescriptor has a max packet size of 64 whereas the UsbEndpointDescriptor has a max packet size of 100. After browsing the example code though, the max packet size of the endpoints seem to always take precedence.

The Device, Interface and Endpoint descriptors can be seen below.

Device

                UsbDeviceDescriptor

                Length:18
                DescriptorType:Device
                BcdUsb:0x0110
                Class:PerInterface
                SubClass:0x00
                Protocol:0x00
                MaxPacketSize0:64
                VendorID:0x0D8C
                ProductID:0x000C
                BcdDevice:0x0100
                ManufacturerStringIndex:0
                ProductStringIndex:1
                SerialStringIndex:0
                ConfigurationCount:1
                ManufacturerString:
                ProductString:C-Media USB Headphone Set  
                SerialString:

Interface

                UsbInterfaceDescriptor  

                Length:9
                DescriptorType:Interface
                InterfaceID:2
                AlternateID:1
                EndpointCount:1
                Class:Audio
                SubClass:0x02
                Protocol:0x00
                StringIndex:0

Endpoint

                UsbEndpointDescriptor   

                Length:9
                DescriptorType:Endpoint
                EndpointID:0x82
                Attributes:0x05
                MaxPacketSize:100
                Interval:1
                Refresh:0
                SynchAddress:0x00

Here is the full code, which is basically the unofficial example I linked at the beginning. Both the code examples are meant to be fully compilable yet both give the same Win32error in the same place.

Full code:

using LibUsbDotNet; using LibUsbDotNet.Info; using LibUsbDotNet.Main; using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks;

namespace ConsoleApplication1
{
class Program
{
    public static UsbDevice MyUsbDevice;

    #region Set USB product and vendor ID as well as constants

    // Specify vendor and product id
    public static UsbDeviceFinder MyUsbFinder = new UsbDeviceFinder(0x0D8C, 0x000C);

    /// <summary>Use the first read endpoint</summary>
    public static readonly byte TRANFER_ENDPOINT = UsbConstants.ENDPOINT_DIR_MASK;

    /// <summary>Number of transfers to sumbit before waiting begins</summary>
    public static readonly int TRANFER_MAX_OUTSTANDING_IO = 3;

    /// <summary>Number of transfers before terminating the test</summary>
    public static readonly int TRANSFER_COUNT = 30;

    /// <summary>Size of each transfer</summary>
    public static int TRANFER_SIZE = 4096;

    #endregion

    static void Main(string[] args)
    {
        ErrorCode ec = ErrorCode.None;

        try
        {
            // Find and open the usb device.
            UsbRegDeviceList regList = UsbDevice.AllDevices.FindAll(MyUsbFinder);
            if (regList.Count == 0) throw new Exception("Device Not Found.");

            UsbInterfaceInfo usbInterfaceInfo = null;
            UsbEndpointInfo usbEndpointInfo = null;

            // Look through all conected devices with this vid and pid until
            // one is found that has and and endpoint that matches TRANFER_ENDPOINT.
            //
            foreach (UsbRegistry regDevice in regList)
            {
                if (regDevice.Open(out MyUsbDevice))
                {
                    if (MyUsbDevice.Configs.Count > 0)
                    {
                        // if TRANFER_ENDPOINT is 0x80 or 0x00, LookupEndpointInfo will return the 
                        // first read or write (respectively).
                        if (UsbEndpointBase.LookupEndpointInfo(MyUsbDevice.Configs[0], TRANFER_ENDPOINT,
                            out usbInterfaceInfo, out usbEndpointInfo))
                            break;

                        MyUsbDevice.Close();
                        MyUsbDevice = null;
                    }
                }
            }

            // If the device is open and ready
            if (MyUsbDevice == null) throw new Exception("Device Not Found.");

            // If this is a "whole" usb device (libusb-win32, linux libusb-1.0)
            // it exposes an IUsbDevice interface. If not (WinUSB) the 
            // 'wholeUsbDevice' variable will be null indicating this is 
            // an interface of a device; it does not require or support 
            // configuration and interface selection.
            IUsbDevice wholeUsbDevice = MyUsbDevice as IUsbDevice;
            if (!ReferenceEquals(wholeUsbDevice, null))
            {
                // This is a "whole" USB device. Before it can be used, 
                // the desired configuration and interface must be selected.

                // Select config #1
                wholeUsbDevice.SetConfiguration(1);

                // Claim interface #0.
                wholeUsbDevice.ClaimInterface(usbInterfaceInfo.Descriptor.InterfaceID);
            }

            // Open read endpoint.
            UsbEndpointReader reader = MyUsbDevice.OpenEndpointReader(
                (ReadEndpointID)usbEndpointInfo.Descriptor.EndpointID,
                0,
                (EndpointType)(usbEndpointInfo.Descriptor.Attributes & 0x3));

            if (ReferenceEquals(reader, null))
            {
                throw new Exception("Failed locating read endpoint.");
            }

            // A reset, is generally a good idea before using any pipe. ISO endpoints
            // require a reset just before transferring data.
            reader.Reset();

            // TODO: This part is crucial for ISO endpoints!
            // Isochronous often requires transfer size specific to the device/endpoint.
            // Below is a basic formula that will work with many.
            //

            // Try 8 packets.
            int Number_Of_ISO_Packets = 8;

            // The absolute minimum transfer size is the maximum endpoint packet size.
            int Endpoint_wMaxPacketSize = usbEndpointInfo.Descriptor.MaxPacketSize;

            // Number of bytes to transfer in each transactiion.
            int Transfer_Size = Number_Of_ISO_Packets * Endpoint_wMaxPacketSize;

            UsbTransferQueue transferQueue = new UsbTransferQueue(reader,
                                                                 TRANFER_MAX_OUTSTANDING_IO,
                                                                 Transfer_Size,
                                                                 5000,
                                                                 usbEndpointInfo.Descriptor.MaxPacketSize);

            // Transferring stops when any key is pressed, so make sure
            // the buffer is empty. 
            while (Console.KeyAvailable)
                Console.ReadKey();

            do
            {
                UsbTransferQueue.Handle handle;

                // Begin submitting transfers until TRANFER_MAX_OUTSTANDING_IO has been reached.
                // then wait for the oldest outstanding transfer to complete.
                ec = transferQueue.Transfer(out handle);

                if (ec != ErrorCode.Success)
                    throw new Exception("Failed getting async result");

                // Show some information on the completed transfer.
                DataArrival(handle);

                // Keep going until a key is pressed.
            } while (!Console.KeyAvailable);

            // Cancels any oustanding transfers and free's the transfer queue handles.
            // NOTE: A transfer queue can be reused after it's freed.
            transferQueue.Free();

            Console.WriteLine("\r\nDone!\r\n");
        }
        catch (Exception ex)
        {
            Console.WriteLine();
            Console.WriteLine((ec != ErrorCode.None ? ec + ":" : String.Empty) + ex.Message);
        }
        finally
        {
            if (MyUsbDevice != null)
            {
                if (MyUsbDevice.IsOpen)
                {
                    // If this is a "whole" usb device (libusb-win32, linux libusb-1.0)
                    // it exposes an IUsbDevice interface. If not (WinUSB) the 
                    // 'wholeUsbDevice' variable will be null indicating this is 
                    // an interface of a device; it does not require or support 
                    // configuration and interface selection.
                    IUsbDevice wholeUsbDevice = MyUsbDevice as IUsbDevice;
                    if (!ReferenceEquals(wholeUsbDevice, null))
                    {
                        // Release interface #0.
                        wholeUsbDevice.ReleaseInterface(0);
                    }

                    MyUsbDevice.Close();
                }
                MyUsbDevice = null;
            }

            // Wait for user input..
            Console.ReadKey();

            // Free usb resources
            UsbDevice.Exit();
        }
    }

    private static void DataArrival(UsbTransferQueue.Handle handle)
    {
        // TODO: Process your newly received data here.
        //
        // This function should not do very much processing.  If there is a lot of work to
        // be done, copy the transferred data to a new buffer and use a worker thread to 
        // process it.
        int Total_Number_Of_Bytes_Actually_Transferred = handle.Transferred;
        byte[] DataBuffer = handle.Data;

        Console.WriteLine("[DataArrival] {0} bytes", Total_Number_Of_Bytes_Actually_Transferred);
    }

}
}

Any help would be so thankfully received!

Cheers.

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