using System; using System.Runtime.InteropServices; using System.Threading; using System.IO; using System.Threading.Tasks; using Microsoft.Win32.SafeHandles; namespace DS4Windows { public class HidDevice : IDisposable { public enum ReadStatus { Success = 0, WaitTimedOut = 1, WaitFail = 2, NoDataRead = 3, ReadError = 4, NotConnected = 5 } private readonly string _description; private readonly string _devicePath; private readonly HidDeviceAttributes _deviceAttributes; private readonly HidDeviceCapabilities _deviceCapabilities; private bool _monitorDeviceEvents; private string serial = null; internal HidDevice(string devicePath, string description = null) { _devicePath = devicePath; _description = description; try { var hidHandle = OpenHandle(_devicePath, false); _deviceAttributes = GetDeviceAttributes(hidHandle); _deviceCapabilities = GetDeviceCapabilities(hidHandle); hidHandle.Close(); } catch (Exception exception) { Console.WriteLine(exception.Message); throw new Exception(string.Format("Error querying HID device '{0}'.", devicePath), exception); } } public SafeFileHandle safeReadHandle { get; private set; } public FileStream fileStream { get; private set; } public bool IsOpen { get; private set; } public bool IsExclusive { get; private set; } public bool IsConnected { get { return HidDevices.IsConnected(_devicePath); } } public string Description { get { return _description; } } public HidDeviceCapabilities Capabilities { get { return _deviceCapabilities; } } public HidDeviceAttributes Attributes { get { return _deviceAttributes; } } public string DevicePath { get { return _devicePath; } } public override string ToString() { return string.Format("VendorID={0}, ProductID={1}, Version={2}, DevicePath={3}", _deviceAttributes.VendorHexId, _deviceAttributes.ProductHexId, _deviceAttributes.Version, _devicePath); } public void OpenDevice(bool isExclusive) { if (IsOpen) return; try { if (safeReadHandle == null || safeReadHandle.IsInvalid) safeReadHandle = OpenHandle(_devicePath, isExclusive); } catch (Exception exception) { IsOpen = false; throw new Exception("Error opening HID device.", exception); } IsOpen = !safeReadHandle.IsInvalid; IsExclusive = isExclusive; } public void CloseDevice() { if (!IsOpen) return; closeFileStreamIO(); IsOpen = false; } public void Dispose() { CancelIO(); CloseDevice(); } public void CancelIO() { if (IsOpen) NativeMethods.CancelIoEx(safeReadHandle.DangerousGetHandle(), IntPtr.Zero); } public bool ReadInputReport(byte[] data) { if (safeReadHandle == null) safeReadHandle = OpenHandle(_devicePath, true); return NativeMethods.HidD_GetInputReport(safeReadHandle, data, data.Length); } private static HidDeviceAttributes GetDeviceAttributes(SafeFileHandle hidHandle) { var deviceAttributes = default(NativeMethods.HIDD_ATTRIBUTES); deviceAttributes.Size = Marshal.SizeOf(deviceAttributes); NativeMethods.HidD_GetAttributes(hidHandle.DangerousGetHandle(), ref deviceAttributes); return new HidDeviceAttributes(deviceAttributes); } private static HidDeviceCapabilities GetDeviceCapabilities(SafeFileHandle hidHandle) { var capabilities = default(NativeMethods.HIDP_CAPS); var preparsedDataPointer = default(IntPtr); if (NativeMethods.HidD_GetPreparsedData(hidHandle.DangerousGetHandle(), ref preparsedDataPointer)) { NativeMethods.HidP_GetCaps(preparsedDataPointer, ref capabilities); NativeMethods.HidD_FreePreparsedData(preparsedDataPointer); } return new HidDeviceCapabilities(capabilities); } private void closeFileStreamIO() { if (fileStream != null) { try { fileStream.Close(); } catch (IOException) { } } fileStream = null; Console.WriteLine("Close fs"); if (safeReadHandle != null && !safeReadHandle.IsInvalid) { safeReadHandle.Close(); Console.WriteLine("Close sh"); } safeReadHandle = null; } public void flush_Queue() { if (safeReadHandle != null) { NativeMethods.HidD_FlushQueue(safeReadHandle); } } private ReadStatus ReadWithFileStreamTask(byte[] inputBuffer) { try { if (fileStream.Read(inputBuffer, 0, inputBuffer.Length) > 0) { return ReadStatus.Success; } else { return ReadStatus.NoDataRead; } } catch (Exception) { return ReadStatus.ReadError; } } public ReadStatus ReadFile(byte[] inputBuffer) { if (safeReadHandle == null) safeReadHandle = OpenHandle(_devicePath, true); try { uint bytesRead; if (NativeMethods.ReadFile(safeReadHandle.DangerousGetHandle(), inputBuffer, (uint)inputBuffer.Length, out bytesRead, IntPtr.Zero)) { return ReadStatus.Success; } else { return ReadStatus.NoDataRead; } } catch (Exception) { return ReadStatus.ReadError; } } public ReadStatus ReadWithFileStream(byte[] inputBuffer, int timeout) { try { if (safeReadHandle == null) safeReadHandle = OpenHandle(_devicePath, true); if (fileStream == null && !safeReadHandle.IsInvalid) fileStream = new FileStream(safeReadHandle, FileAccess.ReadWrite, inputBuffer.Length, true); if (!safeReadHandle.IsInvalid && fileStream.CanRead) { Task readFileTask = new Task(() => ReadWithFileStreamTask(inputBuffer)); readFileTask.Start(); bool success = readFileTask.Wait(timeout); if (success) { if (readFileTask.Result == ReadStatus.Success) { return ReadStatus.Success; } else if (readFileTask.Result == ReadStatus.ReadError) { return ReadStatus.ReadError; } else if (readFileTask.Result == ReadStatus.NoDataRead) { return ReadStatus.NoDataRead; } } else return ReadStatus.WaitTimedOut; } } catch (Exception e) { if (e is AggregateException) { Console.WriteLine(e.Message); return ReadStatus.WaitFail; } else { return ReadStatus.ReadError; } } return ReadStatus.ReadError; } public ReadStatus ReadAsyncWithFileStream(byte[] inputBuffer, int timeout) { try { if (safeReadHandle == null) safeReadHandle = OpenHandle(_devicePath, true); if (fileStream == null && !safeReadHandle.IsInvalid) fileStream = new FileStream(safeReadHandle, FileAccess.ReadWrite, inputBuffer.Length, true); if (!safeReadHandle.IsInvalid && fileStream.CanRead) { Task readTask = fileStream.ReadAsync(inputBuffer, 0, inputBuffer.Length); readTask.Wait(timeout); if (readTask.Result > 0) { return ReadStatus.Success; } else { return ReadStatus.NoDataRead; } } } catch (Exception e) { if (e is AggregateException) { Console.WriteLine(e.Message); return ReadStatus.WaitFail; } else { return ReadStatus.ReadError; } } return ReadStatus.ReadError; } public bool WriteOutputReportViaControl(byte[] outputBuffer) { if (safeReadHandle == null) { safeReadHandle = OpenHandle(_devicePath, true); } if (NativeMethods.HidD_SetOutputReport(safeReadHandle, outputBuffer, outputBuffer.Length)) return true; else return false; } private bool WriteOutputReportViaInterruptTask(byte[] outputBuffer) { try { fileStream.Write(outputBuffer, 0, outputBuffer.Length); return true; } catch (Exception e) { Console.WriteLine(e.Message); return false; } } public bool WriteOutputReportViaInterrupt(byte[] outputBuffer, int timeout) { try { if (safeReadHandle == null) { safeReadHandle = OpenHandle(_devicePath, true); } if (fileStream == null && !safeReadHandle.IsInvalid) { fileStream = new FileStream(safeReadHandle, FileAccess.ReadWrite, outputBuffer.Length, true); } if (fileStream != null && fileStream.CanWrite && !safeReadHandle.IsInvalid) { fileStream.Write(outputBuffer, 0, outputBuffer.Length); return true; } else { return false; } } catch (Exception) { return false; } } public bool WriteAsyncOutputReportViaInterrupt(byte[] outputBuffer) { try { if (safeReadHandle == null) { safeReadHandle = OpenHandle(_devicePath, true); } if (fileStream == null && !safeReadHandle.IsInvalid) { fileStream = new FileStream(safeReadHandle, FileAccess.ReadWrite, outputBuffer.Length, true); } if (fileStream != null && fileStream.CanWrite && !safeReadHandle.IsInvalid) { Task writeTask = fileStream.WriteAsync(outputBuffer, 0, outputBuffer.Length); //fileStream.Write(outputBuffer, 0, outputBuffer.Length); return true; } else { return false; } } catch (Exception) { return false; } } private SafeFileHandle OpenHandle(String devicePathName, Boolean isExclusive) { SafeFileHandle hidHandle; try { if (isExclusive) { hidHandle = NativeMethods.CreateFile(devicePathName, NativeMethods.GENERIC_READ | NativeMethods.GENERIC_WRITE, 0, IntPtr.Zero, NativeMethods.OpenExisting, 0x20000000 | 0x80000000 | NativeMethods.FILE_FLAG_OVERLAPPED, 0); } else { hidHandle = NativeMethods.CreateFile(devicePathName, NativeMethods.GENERIC_READ | NativeMethods.GENERIC_WRITE, NativeMethods.FILE_SHARE_READ | NativeMethods.FILE_SHARE_WRITE, IntPtr.Zero, NativeMethods.OpenExisting, 0x20000000 | 0x80000000 | NativeMethods.FILE_FLAG_OVERLAPPED, 0); } } catch (Exception) { throw; } return hidHandle; } public bool readFeatureData(byte[] inputBuffer) { return NativeMethods.HidD_GetFeature(safeReadHandle.DangerousGetHandle(), inputBuffer, inputBuffer.Length); } public string readSerial() { if (serial != null) return serial; if (Capabilities.InputReportByteLength == 64) { byte[] buffer = new byte[16]; buffer[0] = 18; readFeatureData(buffer); serial = String.Format("{0:X02}:{1:X02}:{2:X02}:{3:X02}:{4:X02}:{5:X02}", buffer[6], buffer[5], buffer[4], buffer[3], buffer[2], buffer[1]); return serial; } else { byte[] buffer = new byte[126]; NativeMethods.HidD_GetSerialNumberString(safeReadHandle.DangerousGetHandle(), buffer, (ulong)buffer.Length); string MACAddr = System.Text.Encoding.Unicode.GetString(buffer).Replace("\0", string.Empty).ToUpper(); MACAddr = $"{MACAddr[0]}{MACAddr[1]}:{MACAddr[2]}{MACAddr[3]}:{MACAddr[4]}{MACAddr[5]}:{MACAddr[6]}{MACAddr[7]}:{MACAddr[8]}{MACAddr[9]}:{MACAddr[10]}{MACAddr[11]}"; serial = MACAddr; return serial; } } } }