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+) ->", IpOverUsbXenkoName));
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 ipOverUsbXenko = ipOverUsb.OpenSubKey(IpOverUsbXenkoName))
{
if (ipOverUsbXenko == 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: {0}; mapped port {1}", connectedDevice.Name, localPort);
Task.Run(() => DeviceHelper.LaunchPersistentClient(connectedDevice, router, "localhost", localPort));
});
Thread.Sleep(1000); // Detect new devices every 1000 msec
}
}
public IosTracker(Router router)
{
this.router = router;
}
static int Main(string[] args)
{
var exeName = Path.GetFileName(Assembly.GetExecutingAssembly().Location);
var showHelp = false;
var windowsPhonePortMapping = false;
int exitCode = 0;
string logFileName = "routerlog.txt";
var p = new OptionSet
{
"Copyright (C) 2011-2015 Silicon Studio Corporation. All Rights Reserved",
"Xenko Router Server - Version: "
+
String.Format(
"{0}.{1}.{2}",
typeof(Program).Assembly.GetName().Version.Major,
typeof(Program).Assembly.GetName().Version.Minor,
typeof(Program).Assembly.GetName().Version.Build) + string.Empty,
string.Format("Usage: {0} command [options]*", exeName),
string.Empty,
"=== Options ===",
string.Empty,
{ "h|help", "Show this message and exit", v => showHelp = v != null },
{ "log-file=", "Log build in a custom file (default: routerlog.txt).", v => logFileName = v },
{ "register-windowsphone-portmapping", "Register Windows Phone IpOverUsb port mapping", v => windowsPhonePortMapping = true },
};
try
{
var commandArgs = p.Parse(args);
if (showHelp)
{
p.WriteOptionDescriptions(Console.Out);
return 0;
}
// Make sure path exists
if (commandArgs.Count > 0)
throw new OptionException("This command expect no additional arguments", "");
if (windowsPhonePortMapping)
{
WindowsPhoneTracker.RegisterWindowsPhonePortMapping();
return 0;
}
SetupTrayIcon(logFileName);
// Enable file logging
if (!string.IsNullOrEmpty(logFileName))
{
var fileLogListener = new TextWriterLogListener(File.Open(logFileName, FileMode.Create, FileAccess.Write, FileShare.ReadWrite));
GlobalLogger.GlobalMessageLogged += fileLogListener;
}
// TODO: Lock will be only for this folder but it should be shared across OS (should we resolve SiliconStudioXenkoDir?)
using (var mutex = FileLock.TryLock("connectionrouter.lock"))
{
if (mutex == null)
{
Console.WriteLine("Another instance of Xenko Router is already running");
return -1;
}
var router = new Router();
// Start router (in listen server mode)
router.Listen(RouterClient.DefaultPort).Wait();
// Start Android management thread
new Thread(() => AndroidTracker.TrackDevices(router)) { IsBackground = true }.Start();
// Start Windows Phone management thread
new Thread(() => WindowsPhoneTracker.TrackDevices(router)) { IsBackground = true }.Start();
//Start iOS device discovery and proxy launcher
//Currently this is used only internally for QA testing... as we cannot attach the debugger from windows for normal usages..
if (IosTracker.CanProxy())
{
new Thread(async () =>
{
var iosTracker = new IosTracker(router);
await iosTracker.TrackDevices();
}) { IsBackground = true }.Start();
}
// Start WinForms loop
System.Windows.Forms.Application.Run();
}
}
catch (Exception e)
{
Console.WriteLine("{0}: {1}", exeName, e);
if (e is OptionException)
p.WriteOptionDescriptions(Console.Out);
exitCode = 1;
}
return exitCode;
}
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: {0}; successfully mapped port {1}:{2}", connectedDevice.Name, testedLocalPort, RouterClient.DefaultListenPort);
break;
}
}
if (localPort == 0)
{
int lastTestedLocalPort = startLocalPort;
Log.Info("Android Device connected: {0}; error when mapping port [{1}-{2}]:{3}", connectedDevice.Name, 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
}
}
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+) ->", IpOverUsbXenkoName));
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 ipOverUsbXenko = ipOverUsb.OpenSubKey(IpOverUsbXenkoName))
{
if (ipOverUsbXenko == 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 IosTracker(Router router)
{
this.router = router;
}