public static void TrackDevices(Router router) { // Find AppDeployCmd.exe var programFilesX86 = Environment.GetEnvironmentVariable(Environment.Is64BitOperatingSystem ? "COMMONPROGRAMFILES(X86)" : "COMMONPROGRAMFILES"); var ipOverUsbEnum = Path.Combine(programFilesX86, @"Microsoft Shared\Phone Tools\CoreCon\11.0\Bin\IpOverUsbEnum.exe"); if (!File.Exists(ipOverUsbEnum)) { return; } var portRegex = new Regex(string.Format(@"{0} (\d+) ->", IpOverUsbStrideName)); var currentWinPhoneDevices = new Dictionary <int, ConnectedDevice>(); bool checkIfPortMappingIsSetup = false; while (true) { ProcessOutputs devicesOutputs; try { devicesOutputs = ShellHelper.RunProcessAndGetOutput(ipOverUsbEnum, ""); } catch (Exception) { continue; } if (devicesOutputs.ExitCode != 0) { continue; } var newWinPhoneDevices = new Dictionary <int, string>(); // First time a device is detected, we check port mapping is properly setup in registry var isThereAnyDevices = devicesOutputs.OutputLines.Any(x => x == "Partner:"); if (isThereAnyDevices && !checkIfPortMappingIsSetup) { using (var ipOverUsb = Registry.LocalMachine.OpenSubKey(@"Software\Microsoft\IpOverUsb") ?? Registry.LocalMachine.OpenSubKey(@"Software\Microsoft\IpOverUsbSdk")) { if (ipOverUsb != null) { using (var ipOverUsbStride = ipOverUsb.OpenSubKey(IpOverUsbStrideName)) { if (ipOverUsbStride == null) { RegisterWindowsPhonePortMapping(); } } } } checkIfPortMappingIsSetup = true; } // Match forwarded ports foreach (var outputLine in devicesOutputs.OutputLines) { int port; var match = portRegex.Match(outputLine); if (match.Success && Int32.TryParse(match.Groups[1].Value, out port)) { newWinPhoneDevices.Add(port, "Device"); } } DeviceHelper.UpdateDevices(Log, newWinPhoneDevices, currentWinPhoneDevices, (connectedDevice) => { // Launch a client thread that will automatically tries to connect to this port var localPort = (int)connectedDevice.Key; Log.Info($"Device connected: {connectedDevice.Name}; mapped port {localPort}"); Task.Run(() => DeviceHelper.LaunchPersistentClient(connectedDevice, router, "localhost", localPort)); }); Thread.Sleep(1000); // Detect new devices every 1000 msec } }
public static void TrackDevices(Router router) { var currentAndroidDevices = new Dictionary <string, ConnectedDevice>(); // Start new devices int startLocalPort = 51153; // Use ports in the dynamic port range // Check if ADB is on the path var adbPath = AndroidDeviceEnumerator.GetAdbPath(); if (adbPath == null) { return; } // Wait and process android device changes events while (true) { // Fill list of android devices var newAndroidDevices = new Dictionary <string, string>(); foreach (var device in AndroidDeviceEnumerator.ListAndroidDevices()) { newAndroidDevices.Add(device.Serial, string.Format("{0} ({1})", device.Name, device.Serial)); } DeviceHelper.UpdateDevices(Log, newAndroidDevices, currentAndroidDevices, (connectedDevice) => { // First, try adb reverse port mapping (supported on newest adb+device) // This is the best solution, as nothing specific needs to be done. // NOTE: disabled for now, as it's difficult to know what to try first from the device itself. //var output = ShellHelper.RunProcessAndGetOutput(AndroidDeviceEnumerator.GetAdbPath(), string.Format(@"-s {0} reverse tcp:{1} tcp:{2}", newAndroidDevice, LocalPort, LocalPort)); //if (output.ExitCode == 0) // continue; // Setup adb port forward (tries up to 5 times for open ports) int localPort = 0; int firstTestedLocalPort = startLocalPort; for (int i = 0; i < 4; ++i) { int testedLocalPort = startLocalPort++; if (startLocalPort >= 65536) // Make sure we stay in the range of dynamic ports: 49152-65535 { startLocalPort = 49152; } var output = ShellHelper.RunProcessAndGetOutput(adbPath, string.Format(@"-s {0} forward tcp:{1} tcp:{2}", connectedDevice.Key, testedLocalPort, RouterClient.DefaultListenPort)); if (output.ExitCode == 0) { localPort = testedLocalPort; Log.Info($"Android Device connected: {connectedDevice.Name}; successfully mapped port {testedLocalPort}:{RouterClient.DefaultListenPort}"); break; } } if (localPort == 0) { int lastTestedLocalPort = startLocalPort; Log.Info($"Android Device connected: {connectedDevice.Name}; error when mapping port [{firstTestedLocalPort}-{lastTestedLocalPort - 1}]:{RouterClient.DefaultListenPort}"); return; } // Launch a client thread that will automatically tries to connect to this port Task.Run(() => DeviceHelper.LaunchPersistentClient(connectedDevice, router, "localhost", localPort)); }); Thread.Sleep(1000); // Detect new devices every 1000 msec } }