Esempio n. 1
0
        public static void traverseDoD(NetworkGraph g)
        {
            //starting at 721 print out providers to DoD people.

            AsNode DoDMain = g.GetNode(721);
            List<UInt32> DoDProviders = new List<UInt32>();
            List<UInt32> DoDPeers = new List<UInt32>();
            List<UInt32> DoDASNs = new List<UInt32>();
            Queue<UInt32> ASesToProcess = new Queue<UInt32>();

                DoDASNs.Add(721);
                ASesToProcess.Enqueue(721);

            while (ASesToProcess.Count > 0)
            {
                AsNode curr = g.GetNode(ASesToProcess.Dequeue());
                Console.WriteLine("Processing: " + curr.NodeNum);
                foreach (var provider in curr.GetNeighborsByType(RelationshipType.CustomerOf))
                {
                    if (!DoDASNs.Contains(provider.NodeNum) && !DoDProviders.Contains(provider.NodeNum))
                    {
                        DoDProviders.Add(provider.NodeNum);
                        Console.WriteLine(curr.NodeNum + " has non-DoD provider: " + provider.NodeNum);
                        Console.ReadLine();
                    }
                }
                foreach (var customer in curr.GetNeighborsByType(RelationshipType.ProviderTo))
                {
                    if (!DoDASNs.Contains(customer.NodeNum) && !ASesToProcess.Contains(customer.NodeNum))
                    {
                        ASesToProcess.Enqueue(customer.NodeNum);
                        DoDASNs.Add(customer.NodeNum);
                    }
                }
                foreach (var peer in curr.GetNeighborsByType(RelationshipType.PeerOf))
                {
                    if (!DoDASNs.Contains(peer.NodeNum))
                        DoDPeers.Add(peer.NodeNum);
                }

            }

            Console.WriteLine("DoDProviders: ");
            foreach (var provider in DoDProviders)
            {
             if(!DoDASNs.Contains(provider))
                Console.Write(provider + ", ");

            } Console.WriteLine();
            Console.WriteLine("DoDPeers: ");
            foreach (var peer in DoDPeers)
                Console.Write(peer + ", ");
            Console.WriteLine();
        }
Esempio n. 2
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 private static void printDiamond(UInt32 pointASN, UInt32 stub, List <UInt32> competitors, SecureSimulator.NetworkGraph g, StreamWriter output)
 {
     SecureSimulator.AsNode pointASNode = g.GetNode(pointASN);
     SecureSimulator.AsNode stubASNode  = g.GetNode(stub);
     foreach (UInt32 c in competitors)
     {
         SecureSimulator.AsNode cASNode = g.GetNode(c);
         output.WriteLine("{0} {1} {2} {3} {4}", pointASN,
                          relationshipToString(cASNode.GetRelationshipTypeOfNeighbor(pointASNode)),
                          c,
                          relationshipToString(stubASNode.GetRelationshipTypeOfNeighbor(cASNode)),
                          stub);
     }
 }
Esempio n. 3
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        /// <summary>
        /// ADDED BY SHARON
        /// Checks if a particular other node (usually the attacker) is on the path
        /// from the source node to the BFS root.  Returns true if it is, false otherwise
        /// If there is no path to the BFS root, this function returns false
        /// </summary>
        public static bool isNodeOnPathFromBfsRoot(NetworkGraph graph, UInt32 srcNodeNum, UInt32 attackerNodeNum)
        {
            AsNode currNode     = graph.GetNode(srcNodeNum);
            AsNode attackerNode = graph.GetNode(attackerNodeNum);

            // Check the input
            if ((currNode == null) || (attackerNode == null) || (currNode.BfsDepth == Int32.MaxValue))
            {
                return(false);
            }

            //walk down path to root, checking for attacker
            while (currNode != null)
            {
                if (currNode.NodeNum == attackerNode.NodeNum)
                {
                    return(true);
                }
                currNode = currNode.BfsParentNode;
            }
            return(false);
        }
Esempio n. 4
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        /// <summary>
        /// debugging function to give us a string representation of the path for
        /// a node n.
        /// </summary>
        /// <param name="n"></param>
        /// <returns></returns>
        public string GetPath(UInt32 n, NetworkGraph g)
        {
            string toreturn = "";

            if (ChosenPath[n] == null)
            {
                return("no path found for this node, are you sure it exists?");
            }

            toreturn = Convert.ToString(ChosenPath[n][0]);//first element is this node with no annotations.
            UInt32 lastASN = ChosenPath[n][0];

            for (int i = 1; i < ChosenPath[n].Count; i++)
            {
                UInt32 ASN;
                int    col;
                unjoin(ChosenPath[n][i], out ASN, out col);
                RelationshipType rt = g.GetNode(ASN).GetRelationshipTypeOfNeighbor(g.GetNode(lastASN));
                switch (rt)
                {
                case RelationshipType.CustomerOf:
                    toreturn = toreturn + " <- ";
                    break;

                case RelationshipType.PeerOf:
                    toreturn = toreturn + " -- ";
                    break;

                case RelationshipType.ProviderTo:
                    toreturn = toreturn + " -> ";
                    break;
                }
                lastASN  = ASN;
                toreturn = toreturn + ASN;
            }

            return(toreturn);
        }
Esempio n. 5
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        /// <summary>
        /// ADDED BY SHARON
        /// Looks at the path this node has in the BFS
        /// and returns the relationship with the first hop on this path
        /// /// </summary>
        public static RelationshipType GetPathTypeFromBfsRoot(NetworkGraph graph, UInt32 nodeNum)
        {
            AsNode node = graph.GetNode(nodeNum);

            // first check that the node has a path to the root
            if (node.BfsDepth == Int32.MaxValue)
            {
                return(RelationshipType.NullRelationship);
            }
            else  // return the relationship it has with its BFS parent
            {
                return(node.BfsParentNode.GetRelationshipTypeOfNeighbor(node));
            }
        }
Esempio n. 6
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        /// <summary>
        /// Retrieves a path from the BFS root to the specified start node.
        /// The path is returned as a list of AsNode objects.
        /// If there is no path from the BFS root, this function returns null.
        /// </summary>
        public static List <AsNode> GetPathFromBfsRoot(NetworkGraph graph, UInt32 srcNodeNum)
        {
            // Check the input
            AsNode currNode = graph.GetNode(srcNodeNum);

            if ((currNode == null) || (currNode.BfsDepth == Int32.MaxValue))
            {
                return(null);
            }
            // Start a list of nodes in the path
            List <AsNode> nodeList = new List <AsNode>();

            nodeList.Insert(0, currNode);
            // Keep adding parents to the list until we get to the root
            while (currNode.BfsParentNode != null)
            {
                currNode = currNode.BfsParentNode;
                nodeList.Insert(0, currNode);
            }
            return(nodeList);
        }
Esempio n. 7
0
        /// <summary>
        /// Examines the BFS subtree rooted at the node specified by nodeNum and returns a list of the
        /// nodes in the tree.
        /// </summary>
        public static List <AsNode> GetNodesInBfsSubtree(NetworkGraph graph, UInt32 nodeNum)
        {
            // Make sure the node exists and is in the BFS tree
            AsNode rootNode = graph.GetNode(nodeNum);

            if ((rootNode == null) ||
                (rootNode.BfsDepth == Int32.MaxValue))
            {
                return(null);
            }

            // Running node count & list
            List <AsNode> nodeList = new List <AsNode>();

            // Similar to BFS, but we're only going to follow edges that are BFS children
            Queue <AsNode> nodeQueue = new Queue <AsNode>();

            nodeQueue.Enqueue(rootNode);

            // While there's still nodes in the sub-tree to be examined...
            while (nodeQueue.Count > 0)
            {
                // Dequeue a node and iterate through its BFS children
                AsNode currentNode = nodeQueue.Dequeue();
                foreach (AsNode oppositeNode in currentNode.GetNeighborsByType(RelationshipType.BfsParentOf))
                {
                    nodeQueue.Enqueue(oppositeNode);
                    nodeList.Add(oppositeNode);

                    // Sanity check... current node should be the BFS parent of opposite node
                    if (oppositeNode.BfsParentNode != currentNode)
                    {
                        throw new Exception("Expected current node to be parent of child node");
                    }
                }
            }

            return(nodeList);
        }
Esempio n. 8
0
        /// <summary>
        /// Extension method on the NetworkGraph class that performs a [modified] BFS on the
        /// specified graph from the specified source ndoe.  The allowedRelationships specifies
        /// which edges may be traversed during the BFS.
        /// This algorithm breaks ties by picking the node with the lower node number.
        /// This algorithm allows you to execute multiple BFS iterations on a single graph, with the
        /// constraint that any previous BFS trees created in a prior BFS run will not be modified (only
        /// added to).
        /// If limitedDiscovery is true, the BFS will only find new nodes that are 1 edge away from any existing
        /// BFS tree.
        /// If includeSibling is true, then ties are broken by first taking non-siblings over siblings.
        /// 
        /// Modified by PGill Oct. 2010 to take in references to the Best, BucketTable and ChosenPaths sets. The function
        /// was also modified to populate these for our new sims.
        /// </summary>
        public static void ExecuteBfs(NetworkGraph graph, List<UInt32> srcNodeNums, bool limitedDiscovery, bool includeSibling,
            RelationshipType allowedRelationships, ref List<UInt32>[] Best, ref List<UInt32>[] BestNew, ref List<UInt32>[][] BucketTable, ref List<UInt32>[] ChosenPath,
            ref UInt32[] ChosenParent, ref byte[] L, ref byte[] BestRelation)
        {
            Destination utility = new Destination();
            // Initialize some stuff...
            Queue<AsNode> nodeQueue = new Queue<AsNode>(graph.NodeCount);
            graph.BfsTreeNodeCount = 0;

            // "Visit" the source nodes
            foreach (UInt32 srcNodeNum in srcNodeNums)
            {
                AsNode currentNode = graph.GetNode(srcNodeNum);
                currentNode.InProcessBfsStatus = NodeInProcessBfsStatus.SeenInCurrentRun;
                currentNode.BfsDepth = 0;
                nodeQueue.Enqueue(currentNode);
                graph.BfsTreeNodeCount++;

                //init the destination's path to itself
                ChosenPath[srcNodeNum] = new List<UInt32>();
                ChosenPath[srcNodeNum].Add(srcNodeNum);
                Best[srcNodeNum] = new List<UInt32>();
                Best[srcNodeNum].Add(srcNodeNum);

                //if (allowedRelationships.HasFlag(RelationshipType.CustomerOf))
                if ((allowedRelationships & RelationshipType.CustomerOf) == RelationshipType.CustomerOf || allowedRelationships==RelationshipType.NullRelationship)
                {
                    BucketTable[0][ Destination._CUSTOMERCOLUMN] = new List<UInt32>();
                    BucketTable[0][ Destination._CUSTOMERCOLUMN].Add(srcNodeNum);
                }
            }

            // While there's still nodes to be examined...
            while (nodeQueue.Count > 0)
            {
                // Dequeue a node to examine.  Iterate through all of its neighbors of the specified type (plus
                // existing BFS children) and visit them.
                AsNode currentNode = nodeQueue.Dequeue();
                foreach (AsNode oppositeNode in currentNode.GetNeighborsByType(allowedRelationships | RelationshipType.BfsParentOf).Distinct())
                {
                    bool addedtoBest = false;
                    // If this is the first time we've see this node, mark it and possibly enqueue it for later examination
                    if (oppositeNode.InProcessBfsStatus == NodeInProcessBfsStatus.UnseenInCurrentRun)
                    {

                        // Case 1: oppositeNode is a newly discovered node, also unseen in any previous BFS runs
                        if (oppositeNode.PriorBfsStatus == NodePriorBfsStatus.NotDiscoveredInPriorBfs)
                        {
                            oppositeNode.InProcessBfsStatus = NodeInProcessBfsStatus.SeenInCurrentRun;
                            oppositeNode.BfsDepth = currentNode.BfsDepth + 1;
                            oppositeNode.BfsParentNode = currentNode;

                            currentNode.AddBfsChild(oppositeNode);

                            graph.BfsTreeDepth = Math.Max(graph.BfsTreeDepth, oppositeNode.BfsDepth);
                            graph.BfsTreeNodeCount++;

                            if (!oppositeNode.isStub() || !OnlyNonStubs)
                            {
                                L[oppositeNode.NodeNum] = (byte)oppositeNode.BfsDepth;
                                /*** add this node to the buckettable and update its chosen path, parent and BFS depth***/

                                //if (allowedRelationships.HasFlag(RelationshipType.CustomerOf)) -- this is .NET 4, downgraded to make comptabilte with .NET 3.5
                                if ((allowedRelationships & RelationshipType.CustomerOf) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                                {

                                    //init this spot in the bucket table (if needed)
                                    if (BucketTable[oppositeNode.BfsDepth][Destination._CUSTOMERCOLUMN] == null)
                                        BucketTable[oppositeNode.BfsDepth][Destination._CUSTOMERCOLUMN] = new List<UInt32>();

                                    BestRelation[oppositeNode.NodeNum] = Destination._CUSTOMERCOLUMN;
                                    BucketTable[oppositeNode.BfsDepth][Destination._CUSTOMERCOLUMN].Add(oppositeNode.NodeNum);
                                    utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._CUSTOMERCOLUMN, ref ChosenPath);

                                }
                                //else if (allowedRelationships.HasFlag(RelationshipType.ProviderTo)) -- this is .NET 4, downgraded to make comptabilte with .NET 3.5
                                else if ((allowedRelationships & RelationshipType.ProviderTo) == RelationshipType.ProviderTo)
                                {

                                    //init this spot in the bucket table (if needed)
                                    if (BucketTable[oppositeNode.BfsDepth][Destination._PROVIDERCOLUMN] == null)
                                        BucketTable[oppositeNode.BfsDepth][Destination._PROVIDERCOLUMN] = new List<UInt32>();

                                    BestRelation[oppositeNode.NodeNum] = Destination._PROVIDERCOLUMN;
                                    BucketTable[oppositeNode.BfsDepth][Destination._PROVIDERCOLUMN].Add(oppositeNode.NodeNum);
                                    utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PROVIDERCOLUMN, ref ChosenPath);

                                }

                                //else if (allowedRelationships.HasFlag(RelationshipType.PeerOf)) -- this is .NET 4, downgraded to make comptabilte with .NET 3.5
                                else if ((allowedRelationships & RelationshipType.PeerOf) == RelationshipType.PeerOf)
                                {
                                    //init this spot in the bucket table (if needed)
                                    if (BucketTable[oppositeNode.BfsDepth][Destination._PEERCOLUMN] == null)
                                        BucketTable[oppositeNode.BfsDepth][Destination._PEERCOLUMN] = new List<UInt32>();

                                    BestRelation[oppositeNode.NodeNum] = Destination._PEERCOLUMN;
                                    BucketTable[oppositeNode.BfsDepth][Destination._PEERCOLUMN].Add(oppositeNode.NodeNum);
                                    utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PEERCOLUMN, ref ChosenPath);
                                }

                                /*** update this node's Best set ***/
                                if (Best[oppositeNode.NodeNum] == null)
                                    Best[oppositeNode.NodeNum] = new List<UInt32>();
                                Best[oppositeNode.NodeNum].Add(currentNode.NodeNum);
                                ChosenParent[oppositeNode.NodeNum] = currentNode.NodeNum;

                                if (BestNew[oppositeNode.NodeNum] == null)
                                    BestNew[oppositeNode.NodeNum] = new List<UInt32>();

                                UInt32 encoded = 0;
                                UInt32 NodeNumx = currentNode.NodeNum;

                                if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.ProviderTo)
                                {
                                    encoded = (UInt32)((NodeNumx << 3) + Destination._PROVIDERCOLUMN);
                                }
                                else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                                {
                                    encoded = (UInt32)((NodeNumx << 3) + Destination._CUSTOMERCOLUMN);
                                }
                                else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.PeerOf)
                                {
                                    encoded = (UInt32)((NodeNumx << 3) + Destination._PEERCOLUMN);
                                }
                                BestNew[oppositeNode.NodeNum].Add(encoded);

                            }

                            // If we want to continue discovering past this newly found node, enqueue it
                            if (!limitedDiscovery)
                            {
                                nodeQueue.Enqueue(oppositeNode);
                            }

                        }
                        // Case 2: oppositeNode was found in a prior BFS run, and the path to oppositeNode went through currentNode
                        else if (oppositeNode.BfsParentNode == currentNode)
                        {
                            // Don't need to do any marking of the opposite node because it's already in the BFS tree.
                            // Just enqueue it so we can continue our BFS from that node at some later time.
                            oppositeNode.InProcessBfsStatus = NodeInProcessBfsStatus.SeenInCurrentRun;
                            nodeQueue.Enqueue(oppositeNode);
                            graph.BfsTreeDepth = Math.Max(graph.BfsTreeDepth, oppositeNode.BfsDepth);
                            graph.BfsTreeNodeCount++;

                            // Sanity check... the depth should be the same, right?
                            if (oppositeNode.BfsDepth != currentNode.BfsDepth + 1)
                            {
                                throw new Exception("Unexpected BFS depth during BFS re-run");
                            }
                        }
                        // Case 3: oppositeNode was found in a prior BFS run, and the path to oppositeNode did NOT go through currentNode
                        // No action necessary.  We can't process oppositeNode now because we aren't allow to follow this edge.
                        // Eventually we will hit the already-existing edge that's part of a prior BFS run, and we'll enter Case 2 above.
                    }
                    // We've seen this node before...
                    else
                    {
                        // Did we find an alternate route to the opposite node?
                        // We cannot change the route if this node was found in a prior BFS run.
                        // This is where tie-breaking happens...
                        if ((oppositeNode.InProcessBfsStatus == NodeInProcessBfsStatus.SeenInCurrentRun) &&
                            (oppositeNode.BfsDepth == (currentNode.BfsDepth + 1)) &&
                            (oppositeNode.PriorBfsStatus != NodePriorBfsStatus.DiscoveredInPriorBfs))
                        {
                            // This is an alternate route... break the tie
                            //note that current node is a potential parent of opposite node here.
                            //equivalent to current node being one of the nodes in the tiebreak set

                            //Console.WriteLine("Ties Breaker");

                            //UPDATED CONDITION TO DEAL WITH HASH FLAG
                            if ((Hash && NewRouteWinsTieBreak(currentNode, oppositeNode, includeSibling)) || (!Hash && NewRouteWinsTieBreakOriginal(currentNode, oppositeNode, includeSibling)))
                            {
                                // Tie-break algorithm says we have a new, better route to this node.
                                // We need to switch the route through the current node instead.
                                oppositeNode.BfsParentNode.RemoveBfsChild(oppositeNode);
                                oppositeNode.BfsParentNode = currentNode;
                                currentNode.AddBfsChild(oppositeNode);

                                if (!oppositeNode.isStub() || !OnlyNonStubs)
                                {
                                    /*** update chosen parent***/
                                    ChosenParent[oppositeNode.NodeNum] = currentNode.NodeNum;

                                    /***  update its chosen path ***/

                                    //if (allowedRelationships.HasFlag(RelationshipType.CustomerOf))
                                    if ((allowedRelationships & RelationshipType.CustomerOf) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                                        utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._CUSTOMERCOLUMN, ref ChosenPath);
                                    //else if (allowedRelationships.HasFlag(RelationshipType.ProviderTo))
                                    else if ((allowedRelationships & RelationshipType.ProviderTo) == RelationshipType.ProviderTo)
                                        utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PROVIDERCOLUMN, ref ChosenPath);
                                    //else if (allowedRelationships.HasFlag(RelationshipType.PeerOf))
                                    else if ((allowedRelationships & RelationshipType.PeerOf) == RelationshipType.PeerOf)
                                        utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PEERCOLUMN, ref ChosenPath);
                                }

                            }
                            /*** NEED TO UPDATE BEST SET WHETHER OR NOT THIS WINS THE TIE BREAK!! **/
                            if (!oppositeNode.isStub() || !OnlyNonStubs)
                            {
                                Best[oppositeNode.NodeNum].Add(currentNode.NodeNum);
                                addedtoBest = true;
                            }
                        }
                    }
                    if ((Best[oppositeNode.NodeNum] != null))// && addedtoBest)// &&
                    //(oppositeNode.PriorBfsStatus != NodePriorBfsStatus.DiscoveredInPriorBfs))
                    {

                        if (BestNew[oppositeNode.NodeNum] == null)
                            BestNew[oppositeNode.NodeNum] = new List<UInt32>();

                        UInt32 encoded = 0;
                        UInt32 NodeNumx = currentNode.NodeNum;

                        if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.ProviderTo)
                        {
                            encoded = (UInt32)((NodeNumx << 3) + Destination._PROVIDERCOLUMN);
                        }
                        else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                        {
                            encoded = (UInt32)((NodeNumx << 3) + Destination._CUSTOMERCOLUMN);
                        }
                        else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.PeerOf)
                        {
                            encoded = (UInt32)((NodeNumx << 3) + Destination._PEERCOLUMN);
                        }

                        UInt32 encoded0 = (UInt32)((NodeNumx << 3) + Destination._PROVIDERCOLUMN);
                        UInt32 encoded1 = (UInt32)((NodeNumx << 3) + Destination._CUSTOMERCOLUMN);
                        UInt32 encoded2 = (UInt32)((NodeNumx << 3) + Destination._PEERCOLUMN);

                        if (!((BestNew[oppositeNode.NodeNum].Exists(element => element == encoded0)) || (BestNew[oppositeNode.NodeNum].Exists(element => element == encoded1)) || (BestNew[oppositeNode.NodeNum].Exists(element => element == encoded2))))
                        {
                            //Console.WriteLine(oppositeNode.NodeNum + "--> Entered for: " + ((UInt32)(((uint)encoded) >> 3) + " relation: " + (int)(encoded & 7)));
                            //Console.WriteLine("encoded = " + encoded);
                            if (encoded != 0)
                            {
                                //Console.WriteLine(oppositeNode.NodeNum + "--> Entered for: " + ((UInt32)(((uint)encoded) >> 3) + " relation: " + (int)(encoded & 7)));
                                //if ((((allowedRelationships & RelationshipType.ProviderTo) == RelationshipType.ProviderTo) && oppositeNode.InProcessBfsStatus == NodeInProcessBfsStatus.ProcessedInCurrentRun))
                                //{
                                //    Console.Write("Rel: " + allowedRelationships + " & Node status: " + oppositeNode.InProcessBfsStatus + "\n");
                                //}
                                //else
                                {
                                    BestNew[oppositeNode.NodeNum].Add(encoded);
                                }
                            }
                        }
                    }
                }
                // Update the in-process BFS status
                currentNode.InProcessBfsStatus = NodeInProcessBfsStatus.ProcessedInCurrentRun;
            }

            // Finished the BFS... lock the discovered nodes into the BFS tree
            foreach (AsNode node in graph.GetAllNodes())
            {
                // FYI In limitedDiscovery mode, some nodes may have been left in the SeenInCurrentRun state
                // (instead of ProcessedInCurrentRun).
                if (node.InProcessBfsStatus != NodeInProcessBfsStatus.UnseenInCurrentRun)
                {
                    node.PriorBfsStatus = NodePriorBfsStatus.DiscoveredInPriorBfs;
                }
                node.InProcessBfsStatus = NodeInProcessBfsStatus.UnseenInCurrentRun;
            }
        }
Esempio n. 9
0
        /// <summary>
        /// debugging function to give us a string representation of the path for
        /// a node n.
        /// </summary>
        /// <param name="n"></param>
        /// <returns></returns>
        public string GetPath(UInt32 n,NetworkGraph g)
        {
            string toreturn = "";

            if (ChosenPath[n] == null)
                return "no path found for this node, are you sure it exists?";

            toreturn = Convert.ToString(ChosenPath[n][0]);//first element is this node with no annotations.
            UInt32 lastASN = ChosenPath[n][0];
            for (int i = 1; i < ChosenPath[n].Count; i++)
            {
                UInt32 ASN;
                int col;
                unjoin(ChosenPath[n][i], out ASN, out col);
                RelationshipType rt = g.GetNode(ASN).GetRelationshipTypeOfNeighbor(g.GetNode(lastASN));
                switch (rt)
                {
                    case RelationshipType.CustomerOf:
                        toreturn = toreturn + " <- ";
                        break;
                    case RelationshipType.PeerOf:
                        toreturn = toreturn + " -- ";
                        break;
                    case RelationshipType.ProviderTo:
                        toreturn = toreturn + " -> ";
                        break;
                }
                lastASN = ASN;
                toreturn = toreturn + ASN;
            }

            return toreturn;
        }
Esempio n. 10
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 /// <summary>
 /// Retrieves a path from the BFS root to the specified start node.
 /// The path is returned as a list of AsNode objects.
 /// If there is no path from the BFS root, this function returns null.
 /// </summary>
 public static List<AsNode> GetPathFromBfsRoot(NetworkGraph graph, UInt32 srcNodeNum)
 {
     // Check the input
     AsNode currNode = graph.GetNode(srcNodeNum);
     if ((currNode == null) || (currNode.BfsDepth == Int32.MaxValue))
     {
         return null;
     }
     // Start a list of nodes in the path
     List<AsNode> nodeList = new List<AsNode>();
     nodeList.Insert(0, currNode);
     // Keep adding parents to the list until we get to the root
     while (currNode.BfsParentNode != null)
     {
         currNode = currNode.BfsParentNode;
         nodeList.Insert(0, currNode);
     }
     return nodeList;
 }
Esempio n. 11
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        /// <summary>
        /// Examines the BFS subtree rooted at the node specified by nodeNum and returns a list of the
        /// nodes in the tree.
        /// </summary>
        public static List<AsNode> GetNodesInBfsSubtree(NetworkGraph graph, UInt32 nodeNum)
        {
            // Make sure the node exists and is in the BFS tree
            AsNode rootNode = graph.GetNode(nodeNum);
            if ((rootNode == null) ||
                (rootNode.BfsDepth == Int32.MaxValue))
            {
                return null;
            }

            // Running node count & list
            List<AsNode> nodeList = new List<AsNode>();

            // Similar to BFS, but we're only going to follow edges that are BFS children
            Queue<AsNode> nodeQueue = new Queue<AsNode>();
            nodeQueue.Enqueue(rootNode);

            // While there's still nodes in the sub-tree to be examined...
            while (nodeQueue.Count > 0)
            {
                // Dequeue a node and iterate through its BFS children
                AsNode currentNode = nodeQueue.Dequeue();
                foreach (AsNode oppositeNode in currentNode.GetNeighborsByType(RelationshipType.BfsParentOf))
                {
                    nodeQueue.Enqueue(oppositeNode);
                    nodeList.Add(oppositeNode);

                    // Sanity check... current node should be the BFS parent of opposite node
                    if (oppositeNode.BfsParentNode != currentNode)
                    {
                        throw new Exception("Expected current node to be parent of child node");
                    }
                }
            }

            return nodeList;
        }
Esempio n. 12
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        private bool initGlobalState(string command, ref NetworkGraph g, ref GlobalState globalState)
        {
            if (command.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries).Length < 2)
            {
                Console.WriteLine("usage: initglobalstate :early adopters:top x:top x%");
                Console.WriteLine("e.g., initglobalstate :15169 8075:8075 22822:40 will set security true for 15169 and 8075 and assign 40 % weight total to 8075 and 22822 with remaining 60% divided across other ASs");
                return false;
            }

            string [] parameters= command.Split(":".ToCharArray(),StringSplitOptions.RemoveEmptyEntries);

            if (parameters.Length != 4)
            {
                Console.WriteLine("usage: initglobalstate :early adopters:top x:top x%");
                Console.WriteLine("e.g., initglobalstate :15169 8075:8075 22822:40 will set security true for 15169 and 8075 and assign 40 % weight total to 8075 and 22822 with remaining 60% divided across other ASs");
                return false;
            }

            List<UInt32> earlyAdopters = new List<UInt32>();
            string[] earlyAdopterStrings = parameters[1].Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
            foreach (string eAS in earlyAdopterStrings)
            {
                UInt32 currAdopter;
                if (UInt32.TryParse(eAS, out currAdopter))
                {
                    if (g.GetNode(currAdopter) != null)
                        earlyAdopters.Add(currAdopter);
                    else
                        Console.WriteLine(currAdopter + " was not in the graph.");
                }
                else
                    Console.WriteLine("could not parse AS: " + eAS);
            }
            List<UInt32> topX = new List<UInt32>();
            string[] topXStrings = parameters[2].Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
            foreach (string tXS in topXStrings)
            {
                UInt32 currTopX;
                if (UInt32.TryParse(tXS, out currTopX))
                {
                    if (g.GetNode(currTopX) != null)
                        topX.Add(currTopX);
                    else
                        Console.WriteLine(currTopX + " was not in the graph.");
                }
                else
                    Console.WriteLine("could not parse AS: " + tXS);
            }

            short topXPercent;
            if (!short.TryParse(parameters[3], out topXPercent))
            {
                Console.WriteLine("could not parse your top X percent value!");
                return false;
            }

            Console.WriteLine("dividing " + topXPercent + " across ");
            foreach (UInt32 topXAS in topX)
                Console.Write(topXAS + ", ");
            Console.WriteLine();
            Console.WriteLine("turning on stubs and ");
            foreach (UInt32 adopter in earlyAdopters)
                Console.Write(adopter + ", ");
            Console.WriteLine();

            globalState = SimulatorLibrary.initGlobalState(g, earlyAdopters, topX, topXPercent);
            return true;
        }
Esempio n. 13
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        private bool initDestination(ref NetworkGraph g, ref Destination d,string command)
        {
            string resp;
            if (command.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries).Length < 2)
            {
                Console.WriteLine("Please enter a destination ASN: ");
                resp = Console.ReadLine();

            }
            else
                resp = command.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries)[1];

            UInt32 destNum;
            if (!UInt32.TryParse(resp, out destNum))
            {
                Console.WriteLine("invalid ASN! ");
                return false;
            }
            if (g.GetNode(destNum) == null)
            {
                Console.WriteLine("could not retrieve destination " + d + " from the graph.");
                return false;
            }

            Console.WriteLine("initializing variables and running RTA");
            MiniDestination miniDest = SimulatorLibrary.initMiniDestination(g, destNum, false);
             d = new Destination(miniDest);
             bool[] tempS = new bool[Constants._numASNs];
             for (int i = 0; i < tempS.Length;i++)
                 tempS[i] = false; ;
             d.UpdatePaths(tempS);//init paths with S = all false
             Console.WriteLine("done initializing. Current active destination is: " + destNum);
            List<UInt32> temp = new List<UInt32>();
            temp.Add(d.destination);
            d.BestNew[d.destination] = temp;
            //Console.Write("Dest BestNew["+ d.destination + "] = " + d.BestNew[d.destination][0]);
            return true;
        }
Esempio n. 14
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        private bool getproviders(ref NetworkGraph g, string command)
        {
            string resp;
            bool onlystubs = false;
            if (command.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries).Length < 2)
            {
                Console.WriteLine("Please enter a node to get the providers of");
                resp = Console.ReadLine();
            }
            else
            {
                resp = command.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries)[1];
            }
            if (command.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries).Length > 2)
            {
                onlystubs = true;
                Console.WriteLine("you have indicated you are only interested in stub networks.");
            }
            UInt32 ASN;
            if (!UInt32.TryParse(resp, out ASN))
            {
                Console.WriteLine("invalid ASN.");
                return false;
            }
            AsNode n;
            List<UInt32> stubs = g.getStubs();
            if ((n = g.GetNode(ASN)) != null)
            {
                Console.WriteLine("Providers of AS: " + ASN + " are: (ie. AS is a customer of)");
                foreach (AsNode customer in n.GetNeighborsByType(RelationshipType.CustomerOf))
                {
                    if (!onlystubs || (stubs.Contains(customer.NodeNum)))
                    Console.Write(customer.NodeNum + " : ");
                }
                Console.WriteLine();

            }
            else
            {
                Console.WriteLine("AS: " + ASN + " was not found in the graph, are you sure it exists?");
                return false;
            }

            return true;
        }
Esempio n. 15
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        private bool getLink(string command, ref NetworkGraph g)
        {
            string[] pieces = command.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
            if (pieces.Length < 3)
            {
                Console.WriteLine("usage: getLink <AS1> <AS2>");
                return false;
            }
            uint as1, as2;
            if (uint.TryParse(pieces[1], out as1) && uint.TryParse(pieces[2], out as2))
            {
                AsNode asnode1 = g.GetNode(as1);
                AsNode asnode2 = g.GetNode(as2);
                if (asnode1.GetAllNeighbors().Contains(asnode2))
                {
                    RelationshipType rt = asnode1.GetRelationshipTypeOfNeighbor(asnode2);
                    Console.WriteLine("AS " + as1 + " has relationship " + rt + " with AS " + as2);
                    return true;
                }
                else
                {

                    Console.WriteLine("edge was not in graph");
                }
                return true;
            }
            return true;
        }
Esempio n. 16
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        private List<bool[]> postProcessState(List<bool[]> unprocessedState, resultObject Params)
        {
            List<UInt32> big5 = new List<uint>();
            big5.Add(22822);
            big5.Add(8075);
            big5.Add(15169);
            big5.Add(20940);
            big5.Add(32934);

            List<bool[]> processedState = new List<bool[]>();
            string graphFile = graphDirectory + Params.graphFile;
            if (!File.Exists(graphFile))
                Console.WriteLine("I could not find the graph file: " + graphFile);

            NetworkGraph g = new NetworkGraph();
            InputFileReader ifr = new InputFileReader(graphFile, g);
            ifr.ProcessFile();

            List<UInt32> stubs = g.getStubs();

            /*** Process and add the initial state of the simulation ***/
            bool[] initialState = SimulatorLibrary.initGlobalState(g, Params.earlyAdopters).S;

            //walk over stubs and re-evaluate their state.
            foreach (UInt32 AS in stubs)
            {
                if (!big5.Contains(AS))
                {
                    AsNode node = g.GetNode(AS);
                    initialState[AS] = false;//default to false for this stub.
                    var parents = node.GetNeighborsByType(RelationshipType.CustomerOf).ToList<AsNode>();
                    // parents.AddRange(node.GetNeighborsByType(RelationshipType.PeerOf)); //don't turn on for peers
                    foreach (AsNode parent in parents)
                    {
                        if (initialState[parent.NodeNum])
                        {//parent is true let it be true in the augmented state.
                            initialState[AS] = true;
                            break;
                        }

                    }
                }

            }
            foreach (var AS in Params.earlyAdopters)
                initialState[AS] = true;//make sure early adopters are "on"

            processedState.Add(initialState);

            for (int i = 0; i < unprocessedState.Count; i++)
            {

                bool[] currS = unprocessedState[i];
                //walk over stubs and re-evaluate their state.
                foreach (UInt32 AS in stubs)
                {
                    if (!big5.Contains(AS))
                    {
                        AsNode node = g.GetNode(AS);
                        currS[AS] = false;//default to false for this stub.
                        var parents = node.GetNeighborsByType(RelationshipType.CustomerOf).ToList<AsNode>();
                        // parents.AddRange(node.GetNeighborsByType(RelationshipType.PeerOf)); //don't turn on for peers
                        foreach (AsNode parent in parents)
                        {
                            if (currS[parent.NodeNum])
                            {//parent is true let it be true in the augmented state.
                                currS[AS] = true;
                                break;
                            }

                        }
                    }
                }

                foreach (var AS in Params.earlyAdopters)
                    currS[AS] = true;//make sure early adopters are "on"

                processedState.Add(currS);
            }

            return processedState;
        }
Esempio n. 17
0
        /// <summary>
        /// Extension method on the NetworkGraph class that performs a [modified] BFS on the
        /// specified graph from the specified source ndoe.  The allowedRelationships specifies
        /// which edges may be traversed during the BFS.
        /// This algorithm breaks ties by picking the node with the lower node number.
        /// This algorithm allows you to execute multiple BFS iterations on a single graph, with the
        /// constraint that any previous BFS trees created in a prior BFS run will not be modified (only
        /// added to).
        /// If limitedDiscovery is true, the BFS will only find new nodes that are 1 edge away from any existing
        /// BFS tree.
        /// If includeSibling is true, then ties are broken by first taking non-siblings over siblings.
        ///
        /// Modified by PGill Oct. 2010 to take in references to the Best, BucketTable and ChosenPaths sets. The function
        /// was also modified to populate these for our new sims.
        /// </summary>
        public static void ExecuteBfs(NetworkGraph graph, List <UInt32> srcNodeNums, bool limitedDiscovery, bool includeSibling,
                                      RelationshipType allowedRelationships, ref List <UInt32>[] Best, ref List <UInt32>[] BestNew, ref List <UInt32>[][] BucketTable, ref List <UInt32>[] ChosenPath,
                                      ref UInt32[] ChosenParent, ref byte[] L, ref byte[] BestRelation)
        {
            Destination utility = new Destination();
            // Initialize some stuff...
            Queue <AsNode> nodeQueue = new Queue <AsNode>(graph.NodeCount);

            graph.BfsTreeNodeCount = 0;

            // "Visit" the source nodes
            foreach (UInt32 srcNodeNum in srcNodeNums)
            {
                AsNode currentNode = graph.GetNode(srcNodeNum);
                currentNode.InProcessBfsStatus = NodeInProcessBfsStatus.SeenInCurrentRun;
                currentNode.BfsDepth           = 0;
                nodeQueue.Enqueue(currentNode);
                graph.BfsTreeNodeCount++;

                //init the destination's path to itself
                ChosenPath[srcNodeNum] = new List <UInt32>();
                ChosenPath[srcNodeNum].Add(srcNodeNum);
                Best[srcNodeNum] = new List <UInt32>();
                Best[srcNodeNum].Add(srcNodeNum);


                //if (allowedRelationships.HasFlag(RelationshipType.CustomerOf))
                if ((allowedRelationships & RelationshipType.CustomerOf) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                {
                    BucketTable[0][Destination._CUSTOMERCOLUMN] = new List <UInt32>();
                    BucketTable[0][Destination._CUSTOMERCOLUMN].Add(srcNodeNum);
                }
            }

            // While there's still nodes to be examined...
            while (nodeQueue.Count > 0)
            {
                // Dequeue a node to examine.  Iterate through all of its neighbors of the specified type (plus
                // existing BFS children) and visit them.
                AsNode currentNode = nodeQueue.Dequeue();
                foreach (AsNode oppositeNode in currentNode.GetNeighborsByType(allowedRelationships | RelationshipType.BfsParentOf).Distinct())
                {
                    bool addedtoBest = false;
                    // If this is the first time we've see this node, mark it and possibly enqueue it for later examination
                    if (oppositeNode.InProcessBfsStatus == NodeInProcessBfsStatus.UnseenInCurrentRun)
                    {
                        // Case 1: oppositeNode is a newly discovered node, also unseen in any previous BFS runs
                        if (oppositeNode.PriorBfsStatus == NodePriorBfsStatus.NotDiscoveredInPriorBfs)
                        {
                            oppositeNode.InProcessBfsStatus = NodeInProcessBfsStatus.SeenInCurrentRun;
                            oppositeNode.BfsDepth           = currentNode.BfsDepth + 1;
                            oppositeNode.BfsParentNode      = currentNode;

                            currentNode.AddBfsChild(oppositeNode);

                            graph.BfsTreeDepth = Math.Max(graph.BfsTreeDepth, oppositeNode.BfsDepth);
                            graph.BfsTreeNodeCount++;

                            if (!oppositeNode.isStub() || !OnlyNonStubs)
                            {
                                L[oppositeNode.NodeNum] = (byte)oppositeNode.BfsDepth;
                                /*** add this node to the buckettable and update its chosen path, parent and BFS depth***/

                                //if (allowedRelationships.HasFlag(RelationshipType.CustomerOf)) -- this is .NET 4, downgraded to make comptabilte with .NET 3.5
                                if ((allowedRelationships & RelationshipType.CustomerOf) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                                {
                                    //init this spot in the bucket table (if needed)
                                    if (BucketTable[oppositeNode.BfsDepth][Destination._CUSTOMERCOLUMN] == null)
                                    {
                                        BucketTable[oppositeNode.BfsDepth][Destination._CUSTOMERCOLUMN] = new List <UInt32>();
                                    }

                                    BestRelation[oppositeNode.NodeNum] = Destination._CUSTOMERCOLUMN;
                                    BucketTable[oppositeNode.BfsDepth][Destination._CUSTOMERCOLUMN].Add(oppositeNode.NodeNum);
                                    utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._CUSTOMERCOLUMN, ref ChosenPath);
                                }
                                //else if (allowedRelationships.HasFlag(RelationshipType.ProviderTo)) -- this is .NET 4, downgraded to make comptabilte with .NET 3.5
                                else if ((allowedRelationships & RelationshipType.ProviderTo) == RelationshipType.ProviderTo)
                                {
                                    //init this spot in the bucket table (if needed)
                                    if (BucketTable[oppositeNode.BfsDepth][Destination._PROVIDERCOLUMN] == null)
                                    {
                                        BucketTable[oppositeNode.BfsDepth][Destination._PROVIDERCOLUMN] = new List <UInt32>();
                                    }

                                    BestRelation[oppositeNode.NodeNum] = Destination._PROVIDERCOLUMN;
                                    BucketTable[oppositeNode.BfsDepth][Destination._PROVIDERCOLUMN].Add(oppositeNode.NodeNum);
                                    utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PROVIDERCOLUMN, ref ChosenPath);
                                }

                                //else if (allowedRelationships.HasFlag(RelationshipType.PeerOf)) -- this is .NET 4, downgraded to make comptabilte with .NET 3.5
                                else if ((allowedRelationships & RelationshipType.PeerOf) == RelationshipType.PeerOf)
                                {
                                    //init this spot in the bucket table (if needed)
                                    if (BucketTable[oppositeNode.BfsDepth][Destination._PEERCOLUMN] == null)
                                    {
                                        BucketTable[oppositeNode.BfsDepth][Destination._PEERCOLUMN] = new List <UInt32>();
                                    }

                                    BestRelation[oppositeNode.NodeNum] = Destination._PEERCOLUMN;
                                    BucketTable[oppositeNode.BfsDepth][Destination._PEERCOLUMN].Add(oppositeNode.NodeNum);
                                    utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PEERCOLUMN, ref ChosenPath);
                                }

                                /*** update this node's Best set ***/
                                if (Best[oppositeNode.NodeNum] == null)
                                {
                                    Best[oppositeNode.NodeNum] = new List <UInt32>();
                                }
                                Best[oppositeNode.NodeNum].Add(currentNode.NodeNum);
                                ChosenParent[oppositeNode.NodeNum] = currentNode.NodeNum;

                                if (BestNew[oppositeNode.NodeNum] == null)
                                {
                                    BestNew[oppositeNode.NodeNum] = new List <UInt32>();
                                }

                                UInt32 encoded  = 0;
                                UInt32 NodeNumx = currentNode.NodeNum;

                                if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.ProviderTo)
                                {
                                    encoded = (UInt32)((NodeNumx << 3) + Destination._PROVIDERCOLUMN);
                                }
                                else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                                {
                                    encoded = (UInt32)((NodeNumx << 3) + Destination._CUSTOMERCOLUMN);
                                }
                                else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.PeerOf)
                                {
                                    encoded = (UInt32)((NodeNumx << 3) + Destination._PEERCOLUMN);
                                }
                                BestNew[oppositeNode.NodeNum].Add(encoded);
                            }

                            // If we want to continue discovering past this newly found node, enqueue it
                            if (!limitedDiscovery)
                            {
                                nodeQueue.Enqueue(oppositeNode);
                            }
                        }
                        // Case 2: oppositeNode was found in a prior BFS run, and the path to oppositeNode went through currentNode
                        else if (oppositeNode.BfsParentNode == currentNode)
                        {
                            // Don't need to do any marking of the opposite node because it's already in the BFS tree.
                            // Just enqueue it so we can continue our BFS from that node at some later time.
                            oppositeNode.InProcessBfsStatus = NodeInProcessBfsStatus.SeenInCurrentRun;
                            nodeQueue.Enqueue(oppositeNode);
                            graph.BfsTreeDepth = Math.Max(graph.BfsTreeDepth, oppositeNode.BfsDepth);
                            graph.BfsTreeNodeCount++;

                            // Sanity check... the depth should be the same, right?
                            if (oppositeNode.BfsDepth != currentNode.BfsDepth + 1)
                            {
                                throw new Exception("Unexpected BFS depth during BFS re-run");
                            }
                        }
                        // Case 3: oppositeNode was found in a prior BFS run, and the path to oppositeNode did NOT go through currentNode
                        // No action necessary.  We can't process oppositeNode now because we aren't allow to follow this edge.
                        // Eventually we will hit the already-existing edge that's part of a prior BFS run, and we'll enter Case 2 above.
                    }
                    // We've seen this node before...
                    else
                    {
                        // Did we find an alternate route to the opposite node?
                        // We cannot change the route if this node was found in a prior BFS run.
                        // This is where tie-breaking happens...
                        if ((oppositeNode.InProcessBfsStatus == NodeInProcessBfsStatus.SeenInCurrentRun) &&
                            (oppositeNode.BfsDepth == (currentNode.BfsDepth + 1)) &&
                            (oppositeNode.PriorBfsStatus != NodePriorBfsStatus.DiscoveredInPriorBfs))
                        {
                            // This is an alternate route... break the tie
                            //note that current node is a potential parent of opposite node here.
                            //equivalent to current node being one of the nodes in the tiebreak set

                            //Console.WriteLine("Ties Breaker");

                            //UPDATED CONDITION TO DEAL WITH HASH FLAG
                            if ((Hash && NewRouteWinsTieBreak(currentNode, oppositeNode, includeSibling)) || (!Hash && NewRouteWinsTieBreakOriginal(currentNode, oppositeNode, includeSibling)))
                            {
                                // Tie-break algorithm says we have a new, better route to this node.
                                // We need to switch the route through the current node instead.
                                oppositeNode.BfsParentNode.RemoveBfsChild(oppositeNode);
                                oppositeNode.BfsParentNode = currentNode;
                                currentNode.AddBfsChild(oppositeNode);

                                if (!oppositeNode.isStub() || !OnlyNonStubs)
                                {
                                    /*** update chosen parent***/
                                    ChosenParent[oppositeNode.NodeNum] = currentNode.NodeNum;

                                    /***  update its chosen path ***/

                                    //if (allowedRelationships.HasFlag(RelationshipType.CustomerOf))
                                    if ((allowedRelationships & RelationshipType.CustomerOf) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                                    {
                                        utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._CUSTOMERCOLUMN, ref ChosenPath);
                                    }
                                    //else if (allowedRelationships.HasFlag(RelationshipType.ProviderTo))
                                    else if ((allowedRelationships & RelationshipType.ProviderTo) == RelationshipType.ProviderTo)
                                    {
                                        utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PROVIDERCOLUMN, ref ChosenPath);
                                    }
                                    //else if (allowedRelationships.HasFlag(RelationshipType.PeerOf))
                                    else if ((allowedRelationships & RelationshipType.PeerOf) == RelationshipType.PeerOf)
                                    {
                                        utility.updatePath(oppositeNode.NodeNum, ChosenPath[currentNode.NodeNum], Destination._PEERCOLUMN, ref ChosenPath);
                                    }
                                }
                            }
                            /*** NEED TO UPDATE BEST SET WHETHER OR NOT THIS WINS THE TIE BREAK!! **/
                            if (!oppositeNode.isStub() || !OnlyNonStubs)
                            {
                                Best[oppositeNode.NodeNum].Add(currentNode.NodeNum);
                                addedtoBest = true;
                            }
                        }
                    }
                    if ((Best[oppositeNode.NodeNum] != null))// && addedtoBest)// &&
                    //(oppositeNode.PriorBfsStatus != NodePriorBfsStatus.DiscoveredInPriorBfs))
                    {
                        if (BestNew[oppositeNode.NodeNum] == null)
                        {
                            BestNew[oppositeNode.NodeNum] = new List <UInt32>();
                        }

                        UInt32 encoded  = 0;
                        UInt32 NodeNumx = currentNode.NodeNum;

                        if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.ProviderTo)
                        {
                            encoded = (UInt32)((NodeNumx << 3) + Destination._PROVIDERCOLUMN);
                        }
                        else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.CustomerOf || allowedRelationships == RelationshipType.NullRelationship)
                        {
                            encoded = (UInt32)((NodeNumx << 3) + Destination._CUSTOMERCOLUMN);
                        }
                        else if ((allowedRelationships & currentNode.GetRelationshipTypeOfNeighbor(oppositeNode)) == RelationshipType.PeerOf)
                        {
                            encoded = (UInt32)((NodeNumx << 3) + Destination._PEERCOLUMN);
                        }

                        UInt32 encoded0 = (UInt32)((NodeNumx << 3) + Destination._PROVIDERCOLUMN);
                        UInt32 encoded1 = (UInt32)((NodeNumx << 3) + Destination._CUSTOMERCOLUMN);
                        UInt32 encoded2 = (UInt32)((NodeNumx << 3) + Destination._PEERCOLUMN);


                        if (!((BestNew[oppositeNode.NodeNum].Exists(element => element == encoded0)) || (BestNew[oppositeNode.NodeNum].Exists(element => element == encoded1)) || (BestNew[oppositeNode.NodeNum].Exists(element => element == encoded2))))
                        {
                            //Console.WriteLine(oppositeNode.NodeNum + "--> Entered for: " + ((UInt32)(((uint)encoded) >> 3) + " relation: " + (int)(encoded & 7)));
                            //Console.WriteLine("encoded = " + encoded);
                            if (encoded != 0)
                            {
                                //Console.WriteLine(oppositeNode.NodeNum + "--> Entered for: " + ((UInt32)(((uint)encoded) >> 3) + " relation: " + (int)(encoded & 7)));
                                //if ((((allowedRelationships & RelationshipType.ProviderTo) == RelationshipType.ProviderTo) && oppositeNode.InProcessBfsStatus == NodeInProcessBfsStatus.ProcessedInCurrentRun))
                                //{
                                //    Console.Write("Rel: " + allowedRelationships + " & Node status: " + oppositeNode.InProcessBfsStatus + "\n");
                                //}
                                //else
                                {
                                    BestNew[oppositeNode.NodeNum].Add(encoded);
                                }
                            }
                        }
                    }
                }
                // Update the in-process BFS status
                currentNode.InProcessBfsStatus = NodeInProcessBfsStatus.ProcessedInCurrentRun;
            }

            // Finished the BFS... lock the discovered nodes into the BFS tree
            foreach (AsNode node in graph.GetAllNodes())
            {
                // FYI In limitedDiscovery mode, some nodes may have been left in the SeenInCurrentRun state
                // (instead of ProcessedInCurrentRun).
                if (node.InProcessBfsStatus != NodeInProcessBfsStatus.UnseenInCurrentRun)
                {
                    node.PriorBfsStatus = NodePriorBfsStatus.DiscoveredInPriorBfs;
                }
                node.InProcessBfsStatus = NodeInProcessBfsStatus.UnseenInCurrentRun;
            }
        }
Esempio n. 18
0
 /// <summary>
 /// ADDED BY SHARON
 /// Looks at the path this node has in the BFS
 /// and returns the relationship with the first hop on this path
 /// /// </summary>
 public static RelationshipType GetPathTypeFromBfsRoot(NetworkGraph graph, UInt32 nodeNum)
 {
     AsNode node = graph.GetNode(nodeNum);
     // first check that the node has a path to the root
     if (node.BfsDepth == Int32.MaxValue)
         return RelationshipType.NullRelationship;
     else  // return the relationship it has with its BFS parent
         return node.BfsParentNode.GetRelationshipTypeOfNeighbor(node);
 }
Esempio n. 19
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        private static bool initDestination(ref NetworkGraph g, ref Destination d, string dest)
        {
            UInt32 destNum;
            if (!UInt32.TryParse(dest, out destNum))
            {
            /*
                Console.WriteLine("Invalid ASN!");
                */
            return false;
            }
            if (g.GetNode(destNum) == null)
            {
            /*
                Console.WriteLine("WARNING: Could not retrieve destination " + d + " from the graph.");
                */
            return false;
            }

            /*
            Console.WriteLine("Initializing variables and running RTA");
            */
            MiniDestination miniDest = SimulatorLibrary.initMiniDestination(g, destNum, false);
            d = new Destination(miniDest);
            bool[] tempS = new bool[Constants._numASNs];
            for (int i = 0; i < tempS.Length; i++) {
                 tempS[i] = false;
            }
            d.UpdatePaths(tempS);
            /*
            Console.WriteLine("Done initializing. Current active destination is: " + destNum);
            */
            return true;
        }
Esempio n. 20
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        /// <summary>
        /// ADDED BY SHARON
        /// Checks if a particular other node (usually the attacker) is on the path
        /// from the source node to the BFS root.  Returns true if it is, false otherwise
        /// If there is no path to the BFS root, this function returns false
        /// </summary>
        public static bool isNodeOnPathFromBfsRoot(NetworkGraph graph, UInt32 srcNodeNum, UInt32 attackerNodeNum)
        {
            AsNode currNode = graph.GetNode(srcNodeNum);
            AsNode attackerNode = graph.GetNode(attackerNodeNum);

            // Check the input
            if ((currNode == null) || (attackerNode == null) || (currNode.BfsDepth == Int32.MaxValue))
            {
                return false;
            }

            //walk down path to root, checking for attacker
            while (currNode != null)
            {
                if (currNode.NodeNum == attackerNode.NodeNum)
                {
                    return true;
                }
                currNode = currNode.BfsParentNode;
            }
            return false;
        }