private static void OpenClientEvent(object sender, EventArgs e)
{
var ip = NetworkUtilities.GetIPv4Address();
var httpPort = HttpServer.GlobalPort;
Process.Start($"http://{ip}:{httpPort}");
}
/* Private methods */
/// <summary>
/// Private constructor that prevents initialisation
/// of an instance of UCServer by using the default
/// constructor.
/// </summary>
private UCServer(int port, int maxConn)
{
serverSocket = NetworkUtilities.InitSocketServer(
NetworkUtilities.GetIPv4Address(),
port);
clients = new Socket[maxConn];
}
/// <summary>
/// Confirm the IP address retrieved isn't the
/// loopback address.
/// </summary>
public void GetIpAddressTest()
{
const string localhost = "127.0.0.1";
string ip;
Assert.AreNotEqual(localhost, ip = NetworkUtilities.GetIPv4Address());
DebugUtilities.Log(TAG + ip);
}
public void ProcessFile(string path, string password, long totalSize)
{
var webPath = Settings.Get("WebServer").WebFilePath.ToString();
var file = new FileInfo(path);
file.Directory?.Create(); // If the directory already exists, this method does nothing.
var fileName = Path.GetFileName(path);
var ip = NetworkUtilities.GetIPv4Address();
var httpPort = HttpServer.GlobalPort;
var data = File.ReadAllBytes(path);
var encryptedFile = _serializator.SerializeFile(_client, password, data);
try
{
if (encryptedFile != null)
{
var tempPath = Path.Combine(webPath + "temp\\", fileName);
File.WriteAllBytes(tempPath, encryptedFile);
var tempWebPath = $"http://{ip}:{httpPort}/temp/{fileName}";
var downloadData = new
{
tempWebPath,
totalSize
};
_serializator.Serialize(_client, _packet.Endpoint, _packet.SyncKey, downloadData);
}
else
{
var errorData = new
{
error = true,
message = "Unable to encrypt file"
};
_serializator.Serialize(_client, _packet.Endpoint, _packet.SyncKey, errorData);
}
}
catch (
Exception e)
{
var exceptionData = new
{
error = true,
message = e.Message
};
_serializator.Serialize(_client, _packet.Endpoint, _packet.SyncKey, exceptionData);
}
}
public static void Start()
{
AllClients = new ConcurrentDictionary <string, AuthClient>();
ApiControllers = new ConcurrentDictionary <string, ApiController>();
var settings = new Settings();
var port = settings.Read("TaskServer", "TaskServerPort", 8387);
var cancellation = new CancellationTokenSource();
var endpoint = new IPEndPoint(IPAddress.Parse(NetworkUtilities.GetIPv4Address()), port);
var server = new WebSocketEventListener(endpoint);
server.OnConnect += HandleConnect;
server.OnDisconnect += HandleDisconnect;
server.OnMessage += HandleMessage;
server.OnError += HandleError;
server.Start();
Log("Task TServer started at " + endpoint);
}
public static void Start()
{
var logger = new Log4NetLogger();
var sysinfo = new SystemInfo();
var endpoint = new IPEndPoint(IPAddress.Parse(/*NetworkUtilities.GetIPv4Address()*/ "0.0.0.0"), 22008);
var server = new WebSocketQueueServer(endpoint, sysinfo, logger);
var manager = new ConnectionManager(server, logger, sysinfo);
var cliFactories = new ICliSessionFactory[]
{
// creates cmd.exe sessions
new CommandSessionFactory(logger),
// creates powershell sessions
new PowerShellFactory(logger)
};
server.Queue.SubscribeInstance(new CreateTerminalRequestHandler(manager, cliFactories, logger, sysinfo));
server.Queue.SubscribeInstance(new CloseTerminalRequestHandler(manager, logger));
server.Queue.SubscribeInstance(new InputTerminalRequestHandler(manager, logger));
server.Queue.SubscribeInstance(new AesHandshakeRequestHandler(manager, logger));
try
{
server.StartAsync();
Console.WriteLine("Terminal Server bound to " + NetworkUtilities.GetIPv4Address() + ":" + 22008);
Console.ReadKey(true);
server.Dispose();
}
catch (Exception ex)
{
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine(ex);
Console.ResetColor();
}
Console.WriteLine("End.");
Console.ReadKey(true);
}