public void Test_SendToWrongPort() { IPEndPoint ep1 = new IPEndPoint (IPAddress.Parse ("10.0.0.1"), 10000); IPEndPoint ep2 = new IPEndPoint (IPAddress.Parse ("10.0.0.2"), 10000); VirtualNetwork network = new VirtualNetwork (LatencyTypes.Constant (20), 5, PacketLossType.Lossless (), 2); byte[] msg = new byte[]{0, 1, 2, 3}; try { using (AutoResetEvent done = new AutoResetEvent (false)) using (VirtualDatagramEventSocket sock1 = new VirtualDatagramEventSocket (network, ep1.Address)) using (VirtualDatagramEventSocket sock2 = new VirtualDatagramEventSocket (network, ep2.Address)) { sock1.Bind (new IPEndPoint (IPAddress.Any, ep1.Port)); sock2.Bind (new IPEndPoint (IPAddress.Any, ep2.Port)); sock1.Received += new DatagramReceiveEventHandler (delegate (object sender, DatagramReceiveEventArgs e) { done.Set (); }); sock2.Received += new DatagramReceiveEventHandler (delegate (object sender, DatagramReceiveEventArgs e) { done.Set (); }); sock1.SendTo (msg, new IPEndPoint (ep2.Address, ep2.Port + 1)); Assert.IsFalse (done.WaitOne (500)); sock2.SendTo (msg, ep1); Assert.IsTrue (done.WaitOne ()); } } finally { network.Close (); } }
public VirtualNode(EvalEnvironment env, VirtualNetwork network, EvalOptionSet opt, IntervalInterrupter messagingInt, IntervalInterrupter kbrStabilizeInt, IntervalInterrupter anonInt, IntervalInterrupter dhtInt) { IPAddress pubAdrs = _ipGenerator.Next (); int bindPort; lock (_rnd) { bindPort = _rnd.Next (1024, ushort.MaxValue); } _pubEP = new IPEndPoint (pubAdrs, bindPort); _nodePrivateKey = ECKeyPair.Create (DefaultECDomain); _nodeId = Key.Create (_nodePrivateKey); VirtualDatagramEventSocket sock = new VirtualDatagramEventSocket (network, pubAdrs); sock.Bind (new IPEndPoint (IPAddress.Any, bindPort)); _msock = opt.BypassMessagingSerializer ? (IMessagingSocket)new VirtualMessagingSocket (sock, true, messagingInt, DefaultMessagingRTO, DefaultMessagingRetries, DefaultMessagingRetryBufferSize, DefaultMessagingDupCheckSize) : (IMessagingSocket)new MessagingSocket (sock, true, SymmetricKey.NoneKey, Serializer.Instance, null, messagingInt, DefaultMessagingRTO, DefaultMessagingRetries, DefaultMessagingRetryBufferSize, DefaultMessagingDupCheckSize); _kbr = new SimpleIterativeRouter2 (_nodeId, 0, _msock, new SimpleRoutingAlgorithm (), Serializer.Instance, opt.NewKBRStrictMode); _localDHT = new OnMemoryLocalHashTable (_kbr, dhtInt); _dht = new SimpleDHT (_kbr, _msock, _localDHT); _dht.RegisterTypeID (typeof (string), 0, new LocalHashTableValueMerger<string> ()); p2pncs.Net.Overlay.Anonymous.AnonymousRouter.DefaultRelayNodes = opt.AnonymousRouteRelays; p2pncs.Net.Overlay.Anonymous.AnonymousRouter.DefaultSubscribeRoutes = opt.AnonymousRouteRoutes + opt.AnonymousRouteBackupRoutes; p2pncs.Net.Overlay.Anonymous.AnonymousRouter.AC_DefaultUseSubscribeRoutes = opt.AnonymousRouteRoutes; _anonRouter = new AnonymousRouter (_dht, _nodePrivateKey, anonInt); _kbrStabilizeInt = kbrStabilizeInt; _kbrStabilizeInt.AddInterruption (_kbr.RoutingAlgorithm.Stabilize); _env = env; }
DebugNode AddNode(int gw_port) { int nodeIdx = Interlocked.Increment (ref _nodeIdx); IPAddress adrs = IPAddress.Loopback; VirtualDatagramEventSocket sock = new VirtualDatagramEventSocket (_network, adrs); IPEndPoint pubEP = new IPEndPoint (adrs, 1 + nodeIdx); IPEndPoint bindTcpEP = new IPEndPoint (IPAddress.Loopback, 30000 + nodeIdx); sock.Bind (new IPEndPoint (IPAddress.Any, pubEP.Port)); DebugNode node = DebugNode.Create (nodeIdx, _ints, sock, bindTcpEP, pubEP, gw_port); lock (_list) { _list.Add (node); _eps.Add (pubEP); } if (_init_nodes == null) { node.PortOpenChecker.Join (_eps.ToArray ()); _eps.Add (pubEP); if (_eps.Count == 4) _init_nodes = _eps.ToArray (); } else { node.PortOpenChecker.Join (_init_nodes); } return node; }
protected override void CreateMessagingSocket(int idx, SymmetricKey key, out IMessagingSocket socket, out EndPoint endPoint) { endPoint = new IPEndPoint (_adrsGen.Next (), 10000); VirtualDatagramEventSocket sock = new VirtualDatagramEventSocket (_net, ((IPEndPoint)endPoint).Address); sock.Bind (endPoint); socket = new VirtualMessagingSocket (sock, true, _interrupter, DefaultRTO, DefaultRetryCount, 1024, 1024); }
public void AddNodes(Key[] keys, ECKeyPair[] keyPairs) { for (int i = 0; i < keys.Length; i++) { IPAddress adrs = _ipGenerator.Next (); IPEndPoint ep = new IPEndPoint (adrs, 10000); VirtualDatagramEventSocket sock = new VirtualDatagramEventSocket (_network, adrs); sock.Bind (new IPEndPoint (IPAddress.Loopback, ep.Port)); //IMessagingSocket msock = new MessagingSocket (sock, true, SymmetricKey.NoneKey, Serializer.Instance, null, _interrupter, TimeSpan.FromSeconds (1), 2, 1024); IMessagingSocket msock = new VirtualMessagingSocket (sock, true, _interrupter, _rtoAlgo, 2, 1024, 1024); _sockets.Add (msock); IKeyBasedRouter router = new SimpleIterativeRouter2 (keys[i], 0, msock, new SimpleRoutingAlgorithm (), Serializer.Instance, true); _routers.Add (router); if (_dhts != null) { IDistributedHashTable dht = new SimpleDHT (router, msock, new OnMemoryLocalHashTable (router, _dhtInt)); _dhts.Add (dht); if (_anons != null) { IAnonymousRouter anonRouter = new AnonymousRouter (dht, keyPairs[i], _anonInt); _anons.Add (anonRouter); } } if (_endPoints.Count != 0) { if (_initEPs == null || _endPoints.Count < 3) _initEPs = _endPoints.ToArray (); router.Join (_initEPs); } _endPoints.Add (ep); Thread.Sleep (5); } Thread.Sleep (500); }