Beispiel #1
0
        internal static List <HidDevice> Open(int vendorId, IEnumerable <int> productIds)
        {
            // Obtain system-defined GUID for HIDClass devices.
            Guid hidClassGuid;

            Hid.HidD_GetHidGuid(out hidClassGuid);
            var deviceList = new List <HidDevice>();
            // Obtain handle to an opaque device-information-set
            // describing device interface supported by all HID
            // collections currently installed in the system.
            IntPtr deviceInfoSet = SetupApi.SetupDiGetClassDevs(
                ref hidClassGuid,
                null,
                IntPtr.Zero,
                SetupApi.DiGetFlags.DeviceInterface | SetupApi.DiGetFlags.Present);

            if (deviceInfoSet == Kernel32.InvalidHandleValue)
            {
                throw new Win32Exception();
            }
            // Retrieve all available interface information.
            SetupApi.SpDeviceInterfaceData did = new SetupApi.SpDeviceInterfaceData();
            did.Size = Marshal.SizeOf(did);
            int i = 0;

            while (SetupApi.SetupDiEnumDeviceInterfaces(deviceInfoSet, IntPtr.Zero, ref hidClassGuid, i++, ref did))
            {
                // Obtain DevicePath
                var didd = new SetupApi.SpDeviceInterfaceDetailData();
                // On x64 only 8 appears to work while on x86 it must be sizeof (int) + sizeof (TCHAR)
                didd.Size = IntPtr.Size == 8 ? 8 : IntPtr.Size + Marshal.SystemDefaultCharSize;
                if (SetupApi.SetupDiGetDeviceInterfaceDetail(
                        deviceInfoSet,
                        ref did,
                        ref didd,
                        Marshal.SizeOf(didd),
                        IntPtr.Zero,
                        IntPtr.Zero))
                {
                    // Write access causes failure if not running elevated.
                    IntPtr hDevice = Kernel32.CreateFile(
                        didd.DevicePath,
                        (uint)FileAccess.Read,                       // we just need read
                        FileShare.ReadWrite,                         // and we don't want to restrict others from write
                        IntPtr.Zero,
                        FileMode.Open,
                        FileAttributes.Device,
                        IntPtr.Zero);
                    if (hDevice != Kernel32.InvalidHandleValue)
                    {
                        Hid.DeviceAttributes attributes;
                        if (Hid.HidD_GetAttributes(hDevice, out attributes))
                        {
                            if (vendorId == attributes.VendorId && productIds.Contains(attributes.ProductId))
                            {
                                deviceList.Add(
                                    new HidDevice(
                                        hDevice,
                                        didd.DevicePath,
                                        vendorId,
                                        attributes.ProductId,
                                        attributes.VersionNumber));
                                continue;
                            }
                        }
                        // Close the wrong device handle
                        Kernel32.CloseHandle(hDevice);
                    }
                }
            }
            // Free the device-information-set.
            SetupApi.SetupDiDestroyDeviceInfoList(deviceInfoSet);
            return(deviceList);
        }
Beispiel #2
0
 public static List<HidDevice> Open(int vendorId, IEnumerable<int> productIds)
 {
     // Obtain system-defined GUID for HIDClass devices.
     Guid hidClassGuid;
     Hid.HidD_GetHidGuid(out hidClassGuid);
     var deviceList = new List<HidDevice>();
     // Obtain handle to an opaque device-information-set
     // describing device interface supported by all HID
     // collections currently installed in the system.
     IntPtr deviceInfoSet = SetupApi.SetupDiGetClassDevs(
         ref hidClassGuid,
         null,
         IntPtr.Zero,
         SetupApi.DiGetFlags.DeviceInterface | SetupApi.DiGetFlags.Present);
     if (deviceInfoSet == Kernel32.InvalidHandleValue) {
         throw new Win32Exception();
     }
     // Retrieve all available interface information.
     SetupApi.SpDeviceInterfaceData did = new SetupApi.SpDeviceInterfaceData();
     did.Size = Marshal.SizeOf(did);
     int i = 0;
     while (SetupApi.SetupDiEnumDeviceInterfaces(deviceInfoSet, IntPtr.Zero, ref hidClassGuid, i++, ref did)) {
         // Obtain DevicePath
         var didd = new SetupApi.SpDeviceInterfaceDetailData();
         // On x64 only 8 appears to work while on x86 it must be sizeof (int) + sizeof (TCHAR)
         didd.Size = IntPtr.Size == 8 ? 8 : didd.Size + Marshal.SystemDefaultCharSize;
         if (SetupApi.SetupDiGetDeviceInterfaceDetail(
             deviceInfoSet,
             ref did,
             ref didd,
             Marshal.SizeOf(didd),
             IntPtr.Zero,
             IntPtr.Zero)) {
             // Write access causes failure if not running elevated.
             IntPtr hDevice = Kernel32.CreateFile(
                 didd.DevicePath,
                 FileAccess.Read, // we just need read
                 FileShare.ReadWrite, // and we don't want to restrict others from write
                 IntPtr.Zero,
                 FileMode.Open,
                 FileAttributes.Device,
                 IntPtr.Zero);
             if (hDevice != Kernel32.InvalidHandleValue) {
                 Hid.DeviceAttributes attributes;
                 if (Hid.HidD_GetAttributes(hDevice, out attributes)) {
                     if (vendorId == attributes.VendorId && productIds.Contains(attributes.ProductId)) {
                         deviceList.Add(
                             new HidDevice(
                                 hDevice,
                                 didd.DevicePath,
                                 vendorId,
                                 attributes.ProductId,
                                 attributes.VersionNumber));
                         continue;
                     }
                 }
                 // Close the wrong device handle
                 Kernel32.CloseHandle(hDevice);
             }
         }
     }
     // Free the device-information-set.
     SetupApi.SetupDiDestroyDeviceInfoList(deviceInfoSet);
     return deviceList;
 }