Esempio n. 1
0
        /// <summary>
        /// When the poll timer elapses, this function retrieves data from the controller, and passes
        /// the raw data to both the raw data event (so applications can analyze the raw data if needed),
        /// and passes the data to the private CheckStateChanged function.
        /// </summary>
        /// <param name="sender"></param>
        /// <param name="e"></param>
        /// <remarks>
        /// Please note - the poll timer is stopped until all events have been processed...so
        /// keep your event handlers optimized for analyzing the controller data.
        /// </remarks>
        private void pollTimer_Elapsed(object sender, ElapsedEventArgs e)
        {
            pollTimer.Stop();
            byte[] buf = new byte[64];
            reader.Read(buf);



            if (this.RawData != null)
            {
                RawData(this, buf);
            }

            CheckStateChanged(buf);
            Array.Copy(buf, 0, rawControlData, 0, rawControlData.Length);//changed here, since WinUSB.read doesn't return bytes read, maybe it always fills buffer with what is available?

            //moved this section out of CheckStateChanged since we want this to go off after the data from buf has been copied over to rawControlData
            if ((Enum.GetValues(typeof(ButtonEnum)).Length > 0) && (this.ButtonStateChanged != null))
            {
                ButtonStateChanged(this, stateChangedArray);
            }


            //Console.WriteLine(ConvertToHex(rawControlData, rawControlData.Length));
            pollTimer.Start();
        }
Esempio n. 2
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        /// <summary>
        /// Initializes the device via LibUSB, and sets the refresh interval of the controller data
        /// </summary>
        /// <param name="Interval">The interval that the device is polled for information.</param>
        public void Init(int Interval)
        {
            //ErrorCode ec = ErrorCode.None;


            //HKEY_LOCAL_MACHINE\System\CurrentControlSet\Enum\USB\VID_0A7B&PID_D000\6&688a3b8&0&1\Device Parameters\DeviceInterfaceGUIDs
            USBDeviceInfo[] details = USBDevice.GetDevices("{5C2B3F1A-E9B8-4BD6-9D19-8A283B85726E}");
            USBDeviceInfo   match   = details.First(info => info.VID == 0x0A7B && info.PID == 0xD000);

            MyUsbDevice = new USBDevice(match);
            reader      = MyUsbDevice.Interfaces.First().InPipe;
            writer      = MyUsbDevice.Interfaces.First().OutPipe;

            byte[] buf = new byte[64];

            reader.Read(buf);//can't remember why I do this.

            ButtonMasks.InitializeMasks();

            SetPollingInterval(Interval);
            pollTimer.Elapsed += new ElapsedEventHandler(pollTimer_Elapsed);
            pollTimer.Start();

            TestLEDs();
            if (updateGearLights)
            {
                GearLightsRefresh((int)unchecked ((sbyte)buf[25]));
            }
            RefreshLEDState();
        }
        /// <summary>
        /// Initializes the device via LibUSB, and sets the refresh interval of the controller data
        /// </summary>
        /// <param name="Interval">The interval that the device is polled for information.</param>
        public void Init(int Interval)
        {
            //ErrorCode ec = ErrorCode.None;

            //zadig creates a new device GUID everytime you install, so I placed file in
            //C:\Users\salds_000\Documents\Visual Studio 2013\Projects\steel_batallion-64\steelbattalionnet\winusb\usb_driver
            //check inf file for guid. Right clicking the inf file installs it.

            //after installation you can find this in regedit
            //HKEY_LOCAL_MACHINE\System\CurrentControlSet\Enum\USB\VID_0A7B&PID_D000\6&688a3b8&0&1\Device Parameters\DeviceInterfaceGUIDs
            USBDeviceInfo[] details = USBDevice.GetDevices("{5C2B3F1A-E9B8-4BD6-9D19-8A283B85726E}");
            USBDeviceInfo   match   = details.First(info => info.VID == 0x0A7B && info.PID == 0xD000);

            MyUsbDevice = new USBDevice(match);
            reader      = MyUsbDevice.Interfaces.First().InPipe;
            writer      = MyUsbDevice.Interfaces.First().OutPipe;

            byte[] buf = new byte[64];

            reader.Read(buf);//can't remember why I do this.

            ButtonMasks.InitializeMasks();

            SetPollingInterval(Interval);
            pollTimer.Elapsed += new ElapsedEventHandler(pollTimer_Elapsed);
            pollTimer.Start();

            TestLEDs();
            if (updateGearLights)
            {
                GearLightsRefresh((int)unchecked ((sbyte)buf[25]));
            }
            RefreshLEDState();
        }
 public void FlushDataPipe()
 {
     //lock (usbLock)
     {
         if (!Destroyed)
         {
             try
             {
                 dataEndpoint.Policy.PipeTransferTimeout = 10;
                 dataEndpoint.Read(new byte[dataEndpoint.MaximumPacketSize]);
                 dataEndpoint.Read(new byte[dataEndpoint.MaximumPacketSize]);
             }
             catch (USBException)
             {
             }
             finally
             {
                 dataEndpoint.Policy.PipeTransferTimeout = USB_TIMEOUT;
             }
         }
     }
 }
Esempio n. 5
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 private byte UsbPipeReaderMethod(USBPipe pipe)
 {
     byte[] rawByte = new byte[1];
     pipe.Read(rawByte);
     return(rawByte[0]);
 }
Esempio n. 6
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        //
        // Summary:
        //     Reads numBytes into the data buffer at the specified offset.
        //
        // Parameters:
        //   data:
        //     The input data buffer.
        //
        //   offset:
        //     The zero based offset in the data buffer to write the data read.
        //
        //   numBytes:
        //     The number of bytes to read.
        //
        // Returns:
        //     The receive status, IO_SUCCESS if all bytes were received
        //
        public SendReceiveStatus receiveBytes(byte[] data, int offset, int numBytes)
        {
            SendReceiveStatus status = SendReceiveStatus.IO_SUCCESS;
            int numRead   = 0;
            int numToRead = numBytes;

            try
            {
                //
                // Exceptions:
                //   System.ArgumentNullException:
                //     The buffer passed is null.
                //
                //   System.InvalidOperationException:
                //     The specified port is not open.
                //
                //   System.ArgumentOutOfRangeException:
                //     The offset or count parameters are outside a valid region of the buffer being
                //     passed. Either offset or count is less than zero.
                //
                //   System.ArgumentException:
                //     offset plus count is greater than the length of the buffer.
                //
                //   System.TimeoutException:
                //     No bytes were available to read.
                //
                do
                {
                    numRead  += inPipe.Read(data, offset + numRead, numToRead);
                    numToRead = numBytes - numRead;
                } while (numRead < numBytes);
            }
            catch (System.ArgumentNullException)
            {
                status = SendReceiveStatus.IO_NULL_BUFFER;
            }
            catch (System.InvalidOperationException)
            {
                status = SendReceiveStatus.IO_PORT_ERROR;
            }
            catch (System.ArgumentOutOfRangeException)
            {
                status = SendReceiveStatus.IO_OUT_OF_RANGE;
            }
            catch (System.ArgumentException)
            {
                status = SendReceiveStatus.IO_OUT_OF_RANGE;
            }
            catch (System.TimeoutException)
            {
                status = SendReceiveStatus.IO_TIMEOUT;
            }
            catch (USBException e)
            {
                string message = e.Message;
                status = SendReceiveStatus.IO_PIPE_ERROR;
            }
            catch (Exception)
            {
                status = SendReceiveStatus.IO_OTHER_EXCEPTION;
            }

            return(status);
        }
Esempio n. 7
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 //
 //         read data on the IN endpoint associated to the HID interface
 //
 public List <byte> read(int size = -1, int timeout = -1)
 {
     byte[] packet = new byte[this.packet_size];
     deviceIn.Read(packet);
     return(packet.ToList());
 }