Exemplo n.º 1
0
//		[DllImport(hid)]
//		internal static extern long AllocateHIDObjectFromIOHIDDeviceRef(IOHIDDeviceRef inIOHIDDeviceRef);

        internal static long AllocateHIDObjectFromIOHIDDeviceRef(IOHIDDeviceRef inIOHIDDeviceRef)
        {
            long result = 0;

            if (inIOHIDDeviceRef != IntPtr.Zero)
            {
                // Set up the matching criteria for the devices we're interested in.
                // We are interested in instances of class IOHIDDevice.
                // matchingDict is consumed below( in IOServiceGetMatchingService )
                // so we have no leak here.
                //CFMutableDictionaryRef matchingDict = IOServiceMatching(kIOHIDDeviceKey);
                byte[] utf8Bytes = Encoding.UTF8.GetBytes(Native.kIOHIDDeviceKey);
                //char[] charArr=Native.IOHIDDeviceKey.ToCharArray(
                IntPtr bufferIntPtr = Marshal.AllocHGlobal(utf8Bytes.Length);
                Marshal.Copy(utf8Bytes, 0, bufferIntPtr, utf8Bytes.Length);



                IntPtr matchingDictRef = Native.IOServiceMatching(bufferIntPtr);
                matchingDictRef = Native.IOServiceMatching(Native.CFSTR(Native.kIOHIDDeviceKey));
                Marshal.FreeHGlobal(bufferIntPtr);



                if (matchingDictRef != IntPtr.Zero)
                {
                    Native.CFDictionary dict = new Native.CFDictionary(matchingDictRef);

                    // Add a key for locationID to our matching dictionary.  This works for matching to
                    // IOHIDDevices, so we will only look for a device attached to that particular port
                    // on the machine.

                    IntPtr tCFTypeRef = Native.IOHIDDeviceGetProperty(inIOHIDDeviceRef, Native.CFSTR(Native.kIOHIDLocationIDKey));

                    if (tCFTypeRef != IntPtr.Zero)
                    {
                        dict[Native.kIOHIDLocationIDKey] = tCFTypeRef;



                        //CFDictionaryAddValue (matchingDictRef, CFSTR (Native.IOHIDLocationIDKey), tCFTypeRef);
                        // CFRelease( tCFTypeRef ); // don't release objects that we "Get".

                        // IOServiceGetMatchingService assumes that we already know that there is only one device
                        // that matches.  This way we don't have to do the whole iteration dance to look at each
                        // device that matches.  This is a new API in 10.2
                        //result = Native.IOServiceGetMatchingService (kIOMasterPortDefault, matchingDictRef);
                        result = Native.IOServiceGetMatchingService(IntPtr.Zero, matchingDictRef);
                    }

                    // Note: We're not leaking the matchingDict.
                    // One reference is consumed by IOServiceGetMatchingServices
                }
            }
            return(result);
        }
        static CFDictionaryRef CreateDeviceMatchingDictionary(uint inUsagePage, uint inUsage)
        {
            IntPtr pageCFNumberRef  = (new Native.CFNumber((int)inUsagePage)).typeRef;
            IntPtr usageCFNumberRef = (new Native.CFNumber((int)inUsage)).typeRef;

            CFStringRef[] keys;
            keys     = new IntPtr[2];
            keys [0] = Native.CFSTR(Native.kIOHIDDeviceUsagePageKey);                 //new Native.CFString(Native.IOHIDDeviceUsagePageKey);
            keys [1] = Native.CFSTR(Native.kIOHIDDeviceUsageKey);                     //new Native.CFString(Native.IOHIDDeviceUsageKey);

            Native.CFDictionary dict = new Native.CFDictionary(keys, new IntPtr[] {
                pageCFNumberRef, usageCFNumberRef
            });

            return(dict.typeRef);
        }
Exemplo n.º 3
0
//		[DllImport(hid)]
//		internal static extern long AllocateHIDObjectFromIOHIDDeviceRef(IOHIDDeviceRef inIOHIDDeviceRef);

		internal static long AllocateHIDObjectFromIOHIDDeviceRef(IOHIDDeviceRef inIOHIDDeviceRef) {
						long result =0 ;
						if (inIOHIDDeviceRef!=IntPtr.Zero) {
								// Set up the matching criteria for the devices we're interested in.
								// We are interested in instances of class IOHIDDevice.
								// matchingDict is consumed below( in IOServiceGetMatchingService )
								// so we have no leak here.
								//CFMutableDictionaryRef matchingDict = IOServiceMatching(kIOHIDDeviceKey);
				byte[] utf8Bytes = Encoding.UTF8.GetBytes(Native.kIOHIDDeviceKey);
				//char[] charArr=Native.IOHIDDeviceKey.ToCharArray(
				IntPtr bufferIntPtr = Marshal.AllocHGlobal(utf8Bytes.Length);
				Marshal.Copy(utf8Bytes, 0, bufferIntPtr, utf8Bytes.Length);



				IntPtr matchingDictRef = Native.IOServiceMatching (bufferIntPtr);
								matchingDictRef = Native.IOServiceMatching (Native.CFSTR(Native.kIOHIDDeviceKey));
				Marshal.FreeHGlobal(bufferIntPtr);
								
				                

				if (matchingDictRef != IntPtr.Zero) {

					Native.CFDictionary dict=new Native.CFDictionary(matchingDictRef);

										// Add a key for locationID to our matching dictionary.  This works for matching to
										// IOHIDDevices, so we will only look for a device attached to that particular port
										// on the machine.

										IntPtr tCFTypeRef = Native.IOHIDDeviceGetProperty (inIOHIDDeviceRef, Native.CFSTR (Native.kIOHIDLocationIDKey));

										if (tCFTypeRef != IntPtr.Zero) {

												dict[Native.kIOHIDLocationIDKey]=tCFTypeRef;



												//CFDictionaryAddValue (matchingDictRef, CFSTR (Native.IOHIDLocationIDKey), tCFTypeRef);
												// CFRelease( tCFTypeRef ); // don't release objects that we "Get".
						
												// IOServiceGetMatchingService assumes that we already know that there is only one device
												// that matches.  This way we don't have to do the whole iteration dance to look at each
												// device that matches.  This is a new API in 10.2
												//result = Native.IOServiceGetMatchingService (kIOMasterPortDefault, matchingDictRef);
												result = Native.IOServiceGetMatchingService (IntPtr.Zero, matchingDictRef);
										}
					
										// Note: We're not leaking the matchingDict.
										// One reference is consumed by IOServiceGetMatchingServices
								}
						}
			return result;
				}
		static CFDictionaryRef CreateDeviceMatchingDictionary(uint inUsagePage, uint inUsage)
		{
				IntPtr pageCFNumberRef = (new Native.CFNumber ((int)inUsagePage)).typeRef;
				IntPtr usageCFNumberRef = (new Native.CFNumber ((int)inUsage)).typeRef;
				CFStringRef[] keys;
				keys = new IntPtr[2];
				keys [0] = Native.CFSTR (Native.kIOHIDDeviceUsagePageKey);//new Native.CFString(Native.IOHIDDeviceUsagePageKey);
				keys [1] = Native.CFSTR (Native.kIOHIDDeviceUsageKey);//new Native.CFString(Native.IOHIDDeviceUsageKey);

				Native.CFDictionary dict = new Native.CFDictionary (keys, new IntPtr[] { 
				pageCFNumberRef,usageCFNumberRef});
			
				return dict.typeRef;
		}