public NetworkClNode ConfigureNode() { List <NodeInput> ports = new List <NodeInput>(); string nodeName = null; ManagementClientPort managementPort = null; NetworkNodeSender sender = null; while (configReader.Read()) { if (configReader.IsStartElement()) { if (configReader.NodeType == XmlNodeType.Element) { if (configReader.Name == "port") { int portNumber = int.Parse(configReader.GetAttribute("local")); int tcp = int.Parse(configReader.GetAttribute("tcp")); string stm = configReader.GetAttribute("stm"); ports.Add(new NodeInput(tcp, portNumber, StmLevelExt.GetContainer(stm))); } else if (configReader.Name == "cloud-server") { int tcp = int.Parse(configReader.GetAttribute("tcp")); sender = new NetworkNodeSender(tcp); } else if (configReader.Name == "managment-port") { int portNumber = int.Parse(configReader.GetAttribute("number")); managementPort = new ManagementClientPort(portNumber); } else if (configReader.Name == "node" && configReader.IsStartElement()) { nodeName = configReader.GetAttribute("name"); } } } } SynchronousPhysicalInterface spi = new SynchronousPhysicalInterface(ports, sender, nodeName); TransportTerminalFunction ttf = new TransportTerminalFunction(spi, NodeMode.CLIENT); AdaptationFunction adpt = new AdaptationFunction(ttf); NetworkClNode node = new NetworkClNode(adpt, nodeName); //TODO List <StreamData> records = new List <StreamData>(); records.Add(new StreamData(1, StmLevel.STM1, VirtualContainerLevel.VC32, 0, 0)); //node.AddStreamData(records); ManagementCenter managementCenter = new ManagementCenter(managementPort, node); managementPort.SetManagementCenter(managementCenter); managementPort.StartListening(); foreach (NodeInput input in ports) { input.SetUpServer(10000, 10); input.StartListening(); } return(node); }
public NetworkNode configureNode() { List <NodeInput> ports = new List <NodeInput>(); string nodeName = null; string nodeType = null; ManagementPort managementPort = null; NetworkNodeSender sender = null; while (configReader.Read()) { if (configReader.IsStartElement()) { if (configReader.NodeType == XmlNodeType.Element) { if (configReader.Name == "port") { int portNumber = int.Parse(configReader.GetAttribute("local")); int tcp = int.Parse(configReader.GetAttribute("tcp")); string stm = configReader.GetAttribute("stm"); ports.Add(new NodeInput(tcp, portNumber, StmLevelExt.GetContainer(stm))); } else if (configReader.Name == "cloud-server") { int tcp = int.Parse(configReader.GetAttribute("tcp")); sender = new NetworkNodeSender(tcp); } else if (configReader.Name == "managment-port") { int portNumber = int.Parse(configReader.GetAttribute("number")); managementPort = new ManagementPort(portNumber); } else if (configReader.Name == "node" && configReader.IsStartElement()) { nodeName = configReader.GetAttribute("name"); nodeType = configReader.GetAttribute("type"); } } } } SynchronousPhysicalInterface spi = new SynchronousPhysicalInterface(ports, sender, nodeName); TransportTerminalFunction ttf = new TransportTerminalFunction(spi, getMode(nodeType)); HigherOrderPathConnection hpc = new HigherOrderPathConnection(ttf); NetworkNode node = new NetworkNode(hpc, ttf, nodeName); ManagementCenter managementCenter = new ManagementCenter(managementPort, node); managementPort.SetManagementCenter(managementCenter); managementPort.StartListening(); foreach (NodeInput input in ports) { input.SetUpServer(10000, 10); input.StartListening(); } return(node); }
private StreamData CreateRecord(List <string> literalRecord) { int outPort = int.Parse(literalRecord[0]); int?lowerPath = literalRecord[4].Equals("") ? null : (int?)int.Parse(literalRecord[4]); int higherPath = int.Parse(literalRecord[3]); VirtualContainerLevel level = VirtualContainerLevelExt.GetContainer(literalRecord[2]); StmLevel stm = StmLevelExt.GetContainer(literalRecord[1]); StreamData record = new StreamData(outPort, stm, level, higherPath, lowerPath); return(record); }