internal void sendEntry(Node n, string s)
        {
            String[] entry = s.Split('/');
            int[]    val   = new int[entry.Length];
            if (val.Length != 4)
            {
                log("Wrong entry.", ConsoleColor.Red);
                return;
            }
            for (int i = 0; i < entry.Length; i++)
            {
                int.TryParse(entry[i], out val[i]);
            }
            FIB f = new FIB(val[0], val[1], val[2], val[3]);

            try
            {
                protocol.State        = ManagmentProtocol.ROUTINGENTRY;
                protocol.RoutingEntry = f;
                string data = JSON.Serialize(JSON.FromValue(protocol));
                n.SocketWriter.Write(data);
            }
            catch (IOException e)
            {
                log("Error: " + e.Message, ConsoleColor.Red);
            }
        }
Exemple #2
0
        public Trail(List <Node> path,
                     List <NodeConnection> con,
                     bool createdByUser,
                     bool vc4 = false)
        {
            if (path == null)
            {
                return;
            }
            this.from           = path.First();
            this.to             = path.Last();
            this.Name           = from.Name + "<>" + to.Name;
            this.componentNodes = new List <Node>(path);
            if (createdByUser)
            {
                priority = Priority.USER_CREATED;

                int portIn, portOut;
                int slot = 0;
                for (int n = 0; n < path.Count(); n++)
                {
                    //points.Add(path.ElementAt(n).Position);
                    if (n == 0)
                    {
                        //Start of path
                        portFrom = findConnection(path.ElementAt(0), path.ElementAt(1), con).From.Equals(path.ElementAt(0)) ?
                                   findConnection(path.ElementAt(0), path.ElementAt(1), con).VirtualPortFrom :
                                   findConnection(path.ElementAt(0), path.ElementAt(1), con).VirtualPortTo;
                        StartingSlot = findFirstFreeSlot(findConnection(from, path.ElementAt(n + 1), con), vc4);
                        slot         = StartingSlot;
                        if (slot == -1)
                        {
                            clearTrail(this);
                            break;
                        }
                        findConnection(from, path.ElementAt(n + 1), con).OccupiedSlots.Add(slot);
                        findConnection(from, path.ElementAt(n + 1), con).AutoOccupiedSlots.Add(slot);
                        connectionDictionary.Add(findConnection(from, path.ElementAt(n + 1), con), slot);
                        continue;
                    }
                    if (n == path.Count() - 1)
                    {
                        //End of path
                        portTo = findConnection(path.ElementAt(n - 1), path.ElementAt(n), con).To.Equals(path.ElementAt(n)) ?
                                 findConnection(path.ElementAt(n - 1), path.ElementAt(n), con).VirtualPortTo :
                                 findConnection(path.ElementAt(n - 1), path.ElementAt(n), con).VirtualPortFrom;
                        continue;
                    }
                    NodeConnection conIn  = findConnection(path.ElementAt(n - 1), path.ElementAt(n), con);
                    NodeConnection conOut = findConnection(path.ElementAt(n), path.ElementAt(n + 1), con);
                    portIn  = conIn.To.Equals(path.ElementAt(n)) ? conIn.VirtualPortTo : conIn.VirtualPortFrom;
                    portOut = conOut.From.Equals(path.ElementAt(n)) ? conOut.VirtualPortFrom : conOut.VirtualPortTo;
                    int slotTemp = findFirstFreeSlot(conOut, vc4);
                    if (slotTemp == -1)
                    {
                        clearTrail(this);
                        break;
                    }

                    if (slot == -1)
                    {
                        clearTrail(this);
                        break;
                    }
                    endingSlot = slotTemp;
                    //StartingSlot = startinS;
                    FIB newFibFrom = new FIB(portIn, slot, portOut, slotTemp);
                    FIB newFibTo   = new FIB(portOut, slotTemp, portIn, slot);
                    slot = slotTemp;
                    findConnection(path.ElementAt(n), path.ElementAt(n + 1), con).OccupiedSlots.Add(slot);
                    findConnection(path.ElementAt(n), path.ElementAt(n + 1), con).AutoOccupiedSlots.Add(slot);
                    connectionDictionary.Add(findConnection(path.ElementAt(n), path.ElementAt(n + 1), con), slot);
                    ComponentFIBs.Add(path.ElementAt(n), newFibFrom);
                    //ComponentFIBs.Add(path.ElementAt(n), newFibTo);
                }
            }
            else
            {
                priority = Priority.AUTO;

                int portIn, portOut;
                int slot = 0;
                for (int n = 0; n < path.Count(); n++)
                {
                    //points.Add(path.ElementAt(n).Position);
                    if (n == 0)
                    {
                        //Start of path
                        portFrom = findConnection(path.ElementAt(0), path.ElementAt(1), con).From.Equals(path.ElementAt(0)) ?
                                   findConnection(path.ElementAt(0), path.ElementAt(1), con).VirtualPortFrom :
                                   findConnection(path.ElementAt(0), path.ElementAt(1), con).VirtualPortTo;
                        StartingSlot = findFirstAutoFreeSlot(findConnection(from, path.ElementAt(n + 1), con));
                        slot         = StartingSlot;
                        NodeConnection connection =
                            findConnection(from, path.ElementAt(n + 1), con);
                        connection.AutoOccupiedSlots.Add(slot);
                        connectionDictionary.Add(connection, slot);
                        continue;
                    }
                    if (n == path.Count() - 1)
                    {
                        //End of path
                        portTo = findConnection(path.ElementAt(n - 1), path.ElementAt(n), con).To.Equals(path.ElementAt(n)) ?
                                 findConnection(path.ElementAt(n - 1), path.ElementAt(n), con).VirtualPortTo :
                                 findConnection(path.ElementAt(n - 1), path.ElementAt(n), con).VirtualPortFrom;
                        continue;
                    }
                    NodeConnection conIn  = findConnection(path.ElementAt(n - 1), path.ElementAt(n), con);
                    NodeConnection conOut = findConnection(path.ElementAt(n), path.ElementAt(n + 1), con);
                    portIn  = conIn.To.Equals(path.ElementAt(n)) ? conIn.VirtualPortTo : conIn.VirtualPortFrom;
                    portOut = conOut.From.Equals(path.ElementAt(n)) ? conOut.VirtualPortFrom : conOut.VirtualPortTo;
                    int slotTemp = findFirstAutoFreeSlot(conOut);
                    if (slotTemp == -1)
                    {
                        clearTrail(this);
                        break;
                    }

                    if (slot == -1)
                    {
                        clearTrail(this);
                        break;
                    }
                    //StartingSlot = startinS;
                    FIB newFib = new FIB(portIn, slot, portOut, slotTemp);
                    slot = slotTemp;
                    NodeConnection connectionTemp2 =
                        findConnection(path.ElementAt(n), path.ElementAt(n + 1), con);
                    connectionTemp2.AutoOccupiedSlots.Add(slot);
                    connectionDictionary.Add(connectionTemp2, slot);
                    ComponentFIBs.Add(path.ElementAt(n), newFib);
                }
            }
        }