public static void Main(string[] args)
{
Error ec = Error.Success;
using (UsbContext context = new UsbContext())
{
try
{
UsbInterfaceInfo usbInterfaceInfo = null;
UsbEndpointInfo usbEndpointInfo = null;
// Find and open the usb device.
using (var regList = context.FindAll(MyUsbFinder))
{
if (regList.Count == 0)
{
throw new Exception("Device Not Found.");
}
// Look through all conected devices with this vid and pid until
// one is found that has and and endpoint that matches TRANFER_ENDPOINT.
//
foreach (var regDevice in regList)
{
if (regDevice.TryOpen())
{
if (regDevice.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))
{
MyUsbDevice = regDevice.Clone();
MyUsbDevice.Open();
break;
}
regDevice.Close();
}
}
}
}
// 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.Number);
}
// open read endpoint.
var reader = MyUsbDevice.OpenEndpointReader(
(ReadEndpointID)usbEndpointInfo.EndpointAddress,
0,
(EndpointType)(usbEndpointInfo.Attributes & 0x3));
if (ReferenceEquals(reader, null))
{
throw new Exception("Failed locating read endpoint.");
}
reader.Reset();
// The benchmark device firmware works with this example but it must be put into PC read mode.
#if IS_BENCHMARK_DEVICE
int transferred;
byte[] ctrlData = new byte[1];
UsbSetupPacket setTestTypePacket =
new UsbSetupPacket((byte)(UsbCtrlFlags.Direction_In | UsbCtrlFlags.Recipient_Device | UsbCtrlFlags.RequestType_Vendor),
0x0E, 0x01, usbInterfaceInfo.Number, 1);
transferred = MyUsbDevice.ControlTransfer(setTestTypePacket, ctrlData, 0, 1);
#endif
TRANFER_SIZE -= (TRANFER_SIZE % usbEndpointInfo.MaxPacketSize);
UsbTransferQueue transferQeue = new UsbTransferQueue(reader,
TRANFER_MAX_OUTSTANDING_IO,
TRANFER_SIZE,
5000,
usbEndpointInfo.MaxPacketSize);
do
{
UsbTransferQueue.Handle handle;
// Begin submitting transfers until TRANFER_MAX_OUTSTANDING_IO has benn reached.
// then wait for the oldest outstanding transfer to complete.
//
ec = transferQeue.Transfer(out handle);
if (ec != Error.Success)
{
throw new Exception("Failed getting async result");
}
// Show some information on the completed transfer.
showTransfer(handle, mTransferCount);
} while (mTransferCount++ < TRANSFER_COUNT);
// Cancels any oustanding transfers and free's the transfer queue handles.
// NOTE: A transfer queue can be reused after it's freed.
transferQeue.Free();
Console.WriteLine("\r\nDone!\r\n");
}
catch (Exception ex)
{
Console.WriteLine();
Console.WriteLine((ec != Error.Success ? 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();
}
}
}