Esempio n. 1
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        /// <summary>
        /// Creates a Lidgren network server with an application name and the port number
        /// to establish the connection.
        /// </summary>
        /// <param name="appName">An application name. Can be any names</param>
        /// <param name="portNumber">The port number to establish the connection</param>
        public LidgrenServer(String appName, int portNumber)
        {
            this.portNumber  = portNumber;
            this.appName     = appName;
            enableEncryption = false;
            IPHostEntry ipEntry = Dns.GetHostEntry(Dns.GetHostName());
            IPAddress   addr    = ipEntry.AddressList[0];

            myIPAddress = addr.GetAddressBytes();
            approveList = new Dictionary <string, string>();
            prevSender  = null;
            clients     = new Dictionary <string, NetConnection>();
            clientList  = new List <NetConnection>();

            // Create a net configuration
            netConfig = new NetPeerConfiguration(appName);
            netConfig.MaximumConnections = 32;
            netConfig.Port = portNumber;
            netConfig.EnableMessageType(NetIncomingMessageType.ConnectionApproval);
            netConfig.EnableMessageType(NetIncomingMessageType.DiscoveryRequest);

            xtea            = new NetXtea("GoblinXNA");
            sequenceChannel = 0;
            useSequencedInsteadOfOrdered = false;
        }
Esempio n. 2
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        protected NetIncomingMessage DecryptedReceve(NetIncomingMessage message)
        {
            NetEncryption algo = new NetXtea(NetPeerObject, "SharedKey45B635DF-649B-4C10-B110-439CE1784C59");

            message.Decrypt(algo);
            return(message);
        }
Esempio n. 3
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        /// <summary>
        /// TODO implement proper private/public key. is that even possible to do transperantly?
        /// </summary>
        /// <param name="recever"></param>
        /// <param name="message"></param>
        protected NetOutgoingMessage Encrypt(NetOutgoingMessage message)
        {
            NetEncryption algo = new NetXtea(NetPeerObject, "SharedKey45B635DF-649B-4C10-B110-439CE1784C59");

            message.Encrypt(algo);
            return(message);
        }
Esempio n. 4
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        /// <summary>
        /// Creates a Lidgren network client with an application name, the port number,
        /// and the host name.
        /// </summary>
        /// <param name="appName">An application name. Must be the same as the server app name.</param>
        /// <param name="portNumber">The port number to establish the connection</param>
        /// <param name="hostName">The name of the server machine</param>
        public LidgrenClient(String appName, int portNumber, String hostName)
        {
            this.appName           = appName;
            this.portNumber        = portNumber;
            isConnected            = false;
            isServerDiscovered     = false;
            shutDownForced         = false;
            enableEncryption       = false;
            waitForServer          = false;
            connectionTrialTimeout = -1;
            elapsedTime            = 0;
            IPHostEntry ipEntry = Dns.GetHostEntry(Dns.GetHostName());

            myAddr      = ipEntry.AddressList[0];
            myIPAddress = myAddr.GetAddressBytes();

            IPHostEntry hostEntry = Dns.GetHostEntry(hostName);
            IPAddress   hostAddr  = hostEntry.AddressList[0];

            hostPoint = new IPEndPoint(hostAddr, portNumber);

            isLocalAddress = IsLocalIpAddress(hostName);

            // Create a configuration for the client
            netConfig = new NetPeerConfiguration(appName);

            xtea            = new NetXtea("GoblinXNA");
            sequenceChannel = 0;
            useSequencedInsteadOfOrdered = false;
        }
Esempio n. 5
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        private static void Main(String[] args)
        {
            NetworkClient client = new NetworkClient();

            client.Start();
            //client.Connect();
            client.DiscoverPeers();

            NetClient netClient = client.NetClient;
            var       algo      = new NetXtea(netClient, NetworkSetting.Encryptionkey);

            while (!Console.KeyAvailable || Console.ReadKey().Key != ConsoleKey.Escape)
            {
                NetIncomingMessage msg;
                while ((msg = netClient.ReadMessage()) != null)
                {
                    msg.Decrypt(algo);

                    switch (msg.MessageType)
                    {
                    case NetIncomingMessageType.DiscoveryResponse:
                        Console.WriteLine("Found server at " + msg.SenderEndPoint + " name: " + msg.ReadString());
                        client.Connect(msg.SenderEndPoint);
                        break;

                    case NetIncomingMessageType.VerboseDebugMessage:
                    case NetIncomingMessageType.DebugMessage:
                    case NetIncomingMessageType.WarningMessage:
                    case NetIncomingMessageType.ErrorMessage:
                        Console.WriteLine(msg.ReadString());
                        break;

                    case NetIncomingMessageType.StatusChanged:
                        NetConnectionStatus status = (NetConnectionStatus)msg.ReadByte();
                        if (status == NetConnectionStatus.Connected)
                        {
                            Console.WriteLine(" connected to" + msg.SenderConnection.RemoteUniqueIdentifier);
                        }
                        break;

                    case NetIncomingMessageType.Data:
                        var data    = msg.Data;
                        var message = SerializeTools.Deserialize <GameMessage>(data);
                        Console.WriteLine(message.ClientId + "-" + message.Content + "-" + (Int32)message.MsgCode);
                        client.SendMessage(client.CreateGameMessage <HelloMessage>());
                        break;
                    }
                    netClient.Recycle(msg);
                }
            }

            client.Shutdown();
        }
        public void Decrypt()
        {
            NetEncryption algorithm = new NetXtea(_netPeer, "EoE");

            _message.Decrypt(algorithm);
        }
Esempio n. 7
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        public void Encrypt()
        {
            NetEncryption algo = new NetXtea(_netPeer, "EoE");

            _message.Encrypt(algo);
        }
Esempio n. 8
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        public static void Run(NetPeer peer)
        {
            //
            // Test XTEA
            //
            NetXtea xtea = new NetXtea("TopSecret");

            byte[] original = new byte[16];
            NetRandom.Instance.NextBytes(original);

            byte[] encrypted = new byte[original.Length];
            xtea.EncryptBlock(original, 0, encrypted, 0);
            xtea.EncryptBlock(original, 8, encrypted, 8);

            byte[] decrypted = new byte[original.Length];
            xtea.DecryptBlock(encrypted, 0, decrypted, 0);
            xtea.DecryptBlock(encrypted, 8, decrypted, 8);

            // compare!
            for (int i = 0; i < original.Length; i++)
            {
                if (original[i] != decrypted[i])
                {
                    throw new NetException("XTEA fail!");
                }
            }

            Console.WriteLine("XTEA OK");

            NetOutgoingMessage om = peer.CreateMessage();

            om.Write("Hallon");
            om.Write(42);
            om.Write(5, 5);
            om.Write(true);
            om.Write("kokos");
            om.Encrypt(xtea);

            // convert to incoming message
            NetIncomingMessage im = Program.CreateIncomingMessage(om.PeekDataBuffer(), om.LengthBits);

            im.Decrypt(xtea);

            if (im.ReadString() != "Hallon")
            {
                throw new NetException("fail");
            }
            if (im.ReadInt32() != 42)
            {
                throw new NetException("fail");
            }
            if (im.ReadInt32(5) != 5)
            {
                throw new NetException("fail");
            }
            if (im.ReadBoolean() != true)
            {
                throw new NetException("fail");
            }
            if (im.ReadString() != "kokos")
            {
                throw new NetException("fail");
            }

            for (int i = 0; i < 100; i++)
            {
                byte[] salt = NetSRP.CreateRandomSalt();
                byte[] x    = NetSRP.ComputePrivateKey("user", "password", salt);

                byte[] v = NetSRP.ComputeServerVerifier(x);
                //Console.WriteLine("v = " + NetUtility.ToHexString(v));

                byte[] a = NetSRP.CreateRandomEphemeral();                 //  NetUtility.ToByteArray("393ed364924a71ba7258633cc4854d655ca4ec4e8ba833eceaad2511e80db2b5");
                byte[] A = NetSRP.ComputeClientEphemeral(a);
                //Console.WriteLine("A = " + NetUtility.ToHexString(A));

                byte[] b = NetSRP.CreateRandomEphemeral();                 // NetUtility.ToByteArray("cc4d87a90db91067d52e2778b802ca6f7d362490c4be294b21b4a57c71cf55a9");
                byte[] B = NetSRP.ComputeServerEphemeral(b, v);
                //Console.WriteLine("B = " + NetUtility.ToHexString(B));

                byte[] u = NetSRP.ComputeU(A, B);
                //Console.WriteLine("u = " + NetUtility.ToHexString(u));

                byte[] Ss = NetSRP.ComputeServerSessionValue(A, v, u, b);
                //Console.WriteLine("Ss = " + NetUtility.ToHexString(Ss));

                byte[] Sc = NetSRP.ComputeClientSessionValue(B, x, u, a);
                //Console.WriteLine("Sc = " + NetUtility.ToHexString(Sc));

                if (Ss.Length != Sc.Length)
                {
                    throw new NetException("SRP non matching lengths!");
                }

                for (int j = 0; j < Ss.Length; j++)
                {
                    if (Ss[j] != Sc[j])
                    {
                        throw new NetException("SRP non matching session values!");
                    }
                }

                var test = NetSRP.CreateEncryption(Ss);
            }

            Console.WriteLine("Message encryption OK");
        }